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Global Positioning System (GPS) Data Collection Guidelines

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1. D DATA OWNERSHIP All project related data and submitted deliverables are the property of the Contracting Agency and access to project data prior to delivery by the Contract Manager is required to be honored upon request All the documents submitted to state regional or local government entities will be subject to the disclosure provisions of state statutes governing the access to public records E QUALITY ASSURANCE All data submitted by the Contractor shall be validated by the Contracting Agency following guidelines in Section A V E Quality Assurance and Audit before integration with existing databases 32 F DATA MANAGEMENT AND ARCHIVING It is highly recommended that the Contracting Agency archived the GPS base station data raw field GPS data original corrected GPS data and final interpreted GPS data in a consistent and organized manner to ensure ready access by the Agency itself or any project partners in case of questions about the features or their accuracy Each Contracting Agency office must establish their own system for managing and archiving the deliverables This is essential as the deliverables can present a large volume of data that can be difficult to use reliably and effectively if they are not stored in an organized manner G DIGITAL MEDIA The GPS deliverables and their archive should be stored on stable media e g CD ROM DVD backed up hard drives etc It is recommended the Contracting Agency integrate specific
2. During signal loss attempt to slow the collection pace significantly or even come to a complete stop if conditions dictate that it is safe to do so in order to wait for signal to return Signal loss on long straight a ways is less of a problem than signal loss on curvilinear centerline paths Therefore it is advisable to slow the collection pace around curves if signal strength is weak If loss of signal occurs more than several 73 hundred feet the shape of the feature being collected may become distorted and will require recapture at a later date time See Figure 6 for an example of shape distortion due to signal loss on a curve FIGURE 6 next position collected after signal regain E P 7 z L nodata ae i area aa last position collected before signal loss J l l I I l I I T 1 l I Loss of Signal on a Curvilinear Path In the office signal loss is easily detected If the centerline appears coarse jaunty or looks incorrect against the background image or data layer examine the vertices Since the positions are being collected between one and five seconds long gaps between the vertices will be a strong indicator of loss of signal In such a case re collection of the centerline may be necessary VI Divided Highways Road Centerline Collection A divided highway contains a median in the center that separates different directions of travel Collect the centerlines of both sides of a divided
3. 3 NJTP Z ass Le N fa SHK6 aY L RA pe ALPE ES Long Island CORS Sites A cron g Pz y 7 7 LAMT RVDI Ate os S N 7 7 ORE pr A LS s4 can 7 A DA S i 7 AL ALA 4 Qs LS pS S p Pe S 67 Se y APPENDIX F WIDE AREA AUGMENTATION SYSTEM WAAS OVERVIEW This entire appendix is based on the Wisconsin Department of Natural Resources WIDE AREA AUGMENTATION SYSTEM WAAS document with some minor reformatting I WHAT IS WAAS The Federal Aviation Administration developed the Wide Area Augmentation System WAAS to improve its basic aviation global positioning system GPS service to meet accuracy availability and integrity requirements critical to flight navigation and safety WAAS consists of two geostationary communication satellites and a network of 25 wide area ground reference stations WRSs Each WRS has a surveyed location and receives signals from GPS satellites to determine if any data errors exist The WRS then sends a GPS correction message to a master station that computes correction algorithms and transmits them to the two WAAS satellites The WAAS satellites broadcast the correction data on the same frequency that GPS satellites use to transmit their data WAAS capable units receive both GPS data and WAAS corrections and differentially correct the data in real time For more information about WAAS see http GPS faa gov Programs WAAS waas htm Il HOW DOES WAAS AFFECT
4. 5 Noise Noise error is the distortion of the satellite signal prior to reaching the GPS receiver and or additional signal piggybacking onto the GPS satellite signal All three grades of GPS receivers are capable of suffering from noise error The amount of error due to noise cannot be determined You can ensure that the quality of your data is high by understanding the numerous factors that can affect GPS data quality including Conditions in the ionosphere and atmosphere e g solar flares Number of available satellites and their geometry and health GPS receiver default settings e g PDOP mask angle Signal interference e g multipath errors by obstacles such as buildings and trees Number of data points collected for a feature How and if data are differentially corrected Base station used for differential correction 2 2 gt gt 2 2 hS hS By using appropriate data collection and processing techniques users can minimize much of the error associated with these factors Obviously some factors are beyond user control e g solar flares or satellite characteristics However the right tool and its proper use can minimize these sources of error and make your GPS data as accurate as possible B Default Settings That Affect GPS Data Accuracy Many GPS receivers let you set data collection constraints that disallow data collection unless certain minimum operating thresholds are met The following
5. Contractor and Subcontractors involved in the project detailing their particular duties and background i e their educational background formal GPS training details courses with dates their experience on similar projects etc This could be a copy of what was provided with the pre qualification package A key map showing the project area and a description of any GPS Reference Stations used A description of the GPS Reference Stations used If using a temporary GPS Reference Station the issue of validating the GPS Reference Station will also have to be resolved i e a GPS reference Station validation will have to be submitted A schedule of events showing key dates contract award field data acquisition data processing and submission of the results etc A list of all hardware and software used on the project including but not limited to o GPS hardware i e models receivers numbers data loggers antennas firmware versions etc o GPS software i e name version number settings etc mapping software i e name version number settings etc and o utility software i e name version number settings etc A summary of the project including planning field data collection methods and parameters i e GPS receiver settings defaults data processing methods and parameters i e post processing settings defaults any project problems anomalies deviations etc A summary of the results including rep
6. from the NYS GIS Clearinghouse Survey Professional Licensure and Use of GPS The Global Positioning System GPS and Geographic Information Systems GIS have been a great benefit to all levels of government These two technologies have and will continue to change the way governments manage land records infrastructure emergency response and planning to name a few Many of these GIS data layers are built and maintained by GIS consultants or government employees Some decisions regulations ordinances and law enforcement require government officials to base their decision on information data or maps provided by State Licensed Professionals Licensed Land Surveyors commonly use Survey Grade GPS when performing boundary and topographic surveys Through the New York State Education Law the State of New York governs the Profession of Land Surveying which this document will not address Users should familiarize themselves with and adhere to New York State Education Laws 7203 and 7209 which define the professions of engineering and land surveying as well as set guidelines In the interest of public health and safety 7203 and 7209 set standards respectively by stating The practice of the profession of land surveying is defined as practicing that branch of the engineering profession and applied mathematics which includes the measuring and plotting of the dimensions and areas of any portion of the earth including all naturally placed
7. http www gpsreview net GPS Technology Reviews http gpstekreviews com GPS Gadgets http gps engadget com Inside GNSS http www insidegnss com The Problems with NAD27 http www dot pima gov gis data about nad27problem htm GIS GPS Best Practices http www esri com library bestpractices using gis with gps pdf 3 Tutorials Trimble s Interactive On line Tutorial http www trimble com gps index shtml ESRI ArcPad Free Training http training esri com gateway index cfm fa search results amp searchterm ArcPad amp software type All Software amp trainingformat 1 2C2 ESRI GPS Analyst Free Training http training esri com gateway index cfm fa search results amp searchterm GPS Analyst amp so ftwaretype All Softwared amp trainingformat 1 2C2 amp search search 4 Government GPS Sites F A A GPS Satellite Product Team http gps faa gov National Spatial Reference System NSRS Access info To locate indiv benchmarks http www ngs noaa gov cgi bin datasheet prl NGS NOAA GBPS Site http www ngs noaa gov orbits US Coast Guard http www navcen uscg gov gps default htm 63 e USGS Geographic Names Information System http geonames usgs gov 5 GPS Receiver Manufacturers Comprehensive List of all manufacturers http gauss gge unb ca manufact htm Trimble www trimble com Magellan www magellangps com Garmin www garmin com Leica www leica geosystems com
8. 31 2004 field Contours aw expressed in degrees Contour Loterval Dege Positive htt pa ww w ng noaa gov declinations in blue negative in red The ISR is developed by the Intemational Association of Geomagnetiam and Acronomy Produced by NOAA s National Geophysical AGAJ Division W Data Center NGDC Boulder Colorado Image Source National Oceanic and Atmospheric Administration NOAA Magnetic North The direction of the north seeking end of a magnetic compass needle not subject to transient or local disturbance Definitions of Surveying Terms Prepared by a joint committee of the American Congress on Surveying and Mapping and the American Society of Civil Engineers 1978 Map Projection A defined method of transforming positions defined on an ellipsoid to a map grid for example the Transverse Mercator and Parallel Lambert projections Mean Sea Level MSL The average height of the surface of the sea at a tide station for all stages of the tide over a 19 year period usually determined from hourly height readings measured from a fixed predetermined reference level Metadata Simply defined metadata is data about data or which information which describes the characteristics of a GIS data set In describing a GIS data set metadata usually provides information about its content and origins it may also be used to track the updates corrections or changes to a data set In addition metadata should also contain distribu
9. DGPS Real time differential correction occurs in the field and requires another piece of equipment either separate from or integrated into the GPS receiver to receive correction values from a GPS base station via radio signals or direct satellite link and automatically apply these data to adjust GPS rover data as they are being collected Systems with a built in satellite link provide real time capabilities anywhere in the world The real time corrections are based on an extrapolation of the derived base station corrections computed at some time in the past This extrapolation is a result of the small time lag between the time the satellite information is collected and stored by the base station a correction is computed and finally transmitted to the GPS receiver The time lag between the simultaneous reception of satellite signals by the base station and GPS receiver and the receipt of the correction transmission to the receiver is known as RTCM Age Radio Technical Commission for Maritime Services Most units have the ability to set the limit on RTCM Age that will be used by the receiver to calculate the real time position With the removal of Selective Availability the RTCM Age can be longer than before without adverse results e g a meter every few minutes The recommended settings are as follows relative to the desired target accuracy 29 Target Accuracy Suggested 95 using Real Maximum RTCM Time GPS Age 10m Table IV 1 Sugg
10. GPS data and base station sampling files be kept for archive and Quality Assurance QA purposes in their original format The raw GPS data is required to be stored in the manufacturer s original proprietary format It is acceptable to supply the one hour block Base Station files merged for the time extent of the daily rover data files The originally corrected GPS data is raw data post differentially corrected with base station sampling files prior to any averaging generalizing filtering or editing e g interpreted GPS data Data collected with customized data dictionaries that have GIS feature and attribute information may not be supported by the current RINEX format In this situation the manufacturer s proprietary format is required to preserve the integrity of the data It is required that digital data be submitted on the storage media and format required by the Contracting Agency Table X 1 below details the data required for submittal by the Contractor See the respective Guidelines sections for details on these different data Deliverables GPS Base Station Data DAT SSF or RINEX Merged if possible Raw Field GPS Data DAT SSF or RINEX Originally downloaded Original Corrected GPS Data Unedited Final Interpreted GPS Data Edited Table X 1 Digital Deliverables If the Agency requires any other local datum the methods used to transform the data are to be explicitly described in the project report and approved by the Agency
11. GPS receivers e all GPS receivers Training Requirements e minimal e moderate e advanced Metadata capability to generate metadata or extract metadata from GPS receiver type e minimal e moderate e advanced Cost circa 2006 e 200 to 500 e 2 500 to 12 000 e 5 000 to 50 000 Additional software needed to generate lines and polygons 12 Ill CHOOSING THE RIGHT TOOL FOR THE J OB Based on the parameters established in mission planning the user should choose a GPS receiver that meets or exceeds those requirements Resources e g staff hardware software must also be sufficient to support the use and maintenance of the selected data collection tool Therefore choosing the right GPS receiver for a specific project requires serious consideration of the following Identify and use existing data collection procedures or standards Anticipate use of the feature location and attribute data to be collected Project data accuracy requirements for the data to be collected Available resources to support data collection and processing activities Type number and other characteristics of features to be located Characteristics e g rural vs urban remote vs nearby of the data collection site Identify and use existing feature location or attribute data Type of feature attribute data to be collected How the features to be located will be represented i e as points lines or polygons Vermont Center for Geographic Infor
12. Northstar www northstarnav com Lowrance www lowrance com Topcon www topcon com Corvalis Microtechnology www cmtinc com Tripod Data Systems www tdsway com 6 Standards e Datum and Coordinate Standards http www nysgis state ny us coordinationprogram workgroups wg_1 related standards datum ht m e Metadata Standard FGDC Content Standards and Digital Geospatial Metadata http www fedc gov standards projects FGDC standards projects metadata base metadata e Four Character County Code Standard http www nysgis state ny us coordinationprogram workgroups wg_1 related spcodes 4cntycode h tml e Federal Standards www fgdc gov standards 7 Coordinate Translation http jeeep com details coord http www terraserver com tools degrees_converter asp http www fcc gov mb audio bickel DDDMMSS decimal html http life csu edu au geo dms html 64 Appendix C Map of New York State Plane Zones ew Yorkil ong Island 65 Appendix D NYSNET Map Original NYSDOT OORS NYSDOT CORS Installed 2007 orcs Ey a i 50 km Interstate Highway Image Source New York State Department of Transportation NYSDOT _ N Y S CORS Sites ve Continuously Operating Reference Stations L f j NYML PWEL YOU2 TOA1 NYLP 4 Brny NYHB a Mad NYVH NY RH G ASA d w Ta ff EE ZNY1 NYCI sedi ac NYQN y A oy
13. Ration SNR Mask Varies from GPS receiver Manufacture Users should consult the user manual to obtain the SNR Mask Position Dilution of Precision PDOP the user should stop data collection when PDOP is greater than 6 Logging interval Collection rate should be equal to or a multiple of the sampling rate of the base station use in post differential correction e g 1 5 10 15 or 30 seconds Minimum Positions For Point data this Guideline recommends that the user set the default data collection rate to one second and the minimum number of positions to 30 Carrier Mode allows a receiver to collect carrier phase data used for surveying purposes SHUT CARRIER MODE OFF e Reference System O O O Datum It is recommended that Datum be North American Datum from 1983 AKA NAD 83 Projection New York State Plane Units of Measure Feet The Suffolk County GIS Technical and User Committees adopted New York State Plane NAD 83 Feet e Mission Planning O Users Should be aware of Known Satellite Outages PDOP and local Obstructions to the sky and change the receiver settings and plan data collection times accordingly e Number of Channels O The more channels that a receiver has the greater the potential accuracy for the data collection points will be This guideline recommends that the receiver have the capacity to track 12 channels e Data Collection O External Antenna It is recommended that an external antenna b
14. Since the term is subject to several interpretations it should not be used Definitions of Surveying Terms Prepared by a joint committee of theAmerican Congress on Surveying and Mapping and the American Society of Civil Engineers 1978 Vertical Dilution of Precision VDOP See DOP VRS Virtual Reference Station A VRS system consists of GPS hardware software and communication links It uses data from a network of base Stations to provide corrections to each rover that are more accurate than corrections from a single base station To start using VRS corrections the rover sends its position to the VRS server The VRS server uses the base station data to model systematic errors such as ionospheric noise at the rover position It then sends RTCM correction messages back to the rover WAAS Wide Area Augmentation System WAAS was established by the Federal Aviation Administration FAA for flight and approach navigation for civil aviation WAAS improves the accuracy and availability of the basic GPS signals over its coverage area which includes the continental United States and outlying parts of Canada and Mexico The WAAS system provides correction data for visible satellites Corrections are computed from ground station observations and then uploaded to two geostationary satellites This data is then broadcast on the L1 frequency and is tracked using a channel on the GPS receiver exactly like a GPS satellite Waypoint A geographical point
15. conditions The following general strategy offers some guidance but its successful implementation relies heavily on the experience and judgment of the user The most successful strategy is to be prepared In the case GPS data collection this means entering the field with knowledge of the conditions you are likely to encounter and knowledge of the ideal satellite times for minimizing the impact of difficult conditions Data collection on a north slope or in a steep stream valley may dictate that GPS can only be collected at certain times of the day when a sufficient number of satellites are available above the topographic obstacles Most GPS software allows the user to predict the positions of all the satellites at any time of the day and users can enter the field with this information allowing them to make decisions about when to attempt data collection or how long to wait at a particular location for favorable satellite availability Vegetative canopy is more likely to reduce the strength of rather than completely obstruct the incoming signal If choosing the time of day is an option plan to collect data when satellites are plentiful and high in the sky Alternately you may be able to raise your antenna into or above the canopy for better signal reception or plan your data collection for leaf off conditions Yet another option with some receivers is to collect an offset position that is GPS data are collected some dis
16. discussion introduces the most commonly available constraints that are under the user s control The user should note that the recommendations given below are intended to support accuracy in the 0 5 to 2 meter range It should also be stated that the trade off between accuracy and productivity and cost is embodied in any choice of operating constraints The user should employ data collection constraints that meet the accuracy needs of the project l4 Alfred Leick GPS Satellite Surveying Second Edition 1995 303 Global Positioning System Overview 20 Dec 2006 lt http www colorado edu geography gcraft notes gps gps html SA gt 23 C 1 Position Dilution of Precision PDOP 2 Elevation Mask Angle 3 Number of Points Collected Versus Data Collection Rate 4 Data Collection Under Difficult Conditions Topography buildings and vegetative canopy are among the most frequently encountered obstacles to GPS signal reception Signals can be blocked completely the signal strength can be reduced analogous to static on a radio or signals can bounce off nearby objects and contribute to position inaccuracies multi path A full discussion of this topic is beyond the scope of this Guideline We offer some practical approaches to addressing this condition here Experienced users recognize that GPS data collection conditions are seldom ideal It is this same experience that teaches these users to enter the field prepared for poor
17. established benchmark ever changing satellite geometry weather conditions and terrain factors negate associating a derived absolute accuracy to other points taken in a field collection effort The accuracy table below provides a common reference or positional relative accuracy standard for use in classifying different surveys by data precision and relative accuracy This table applies to both vertical and horizontal relative accuracy so more than one level may be selected for a particular project especially when the fact that vertical values are generally about half as accurate as horizontal values captured by resource mapping grade receivers With this table users can choose the relative accuracy requirements they aspire to achieve and subsequent data users are provided with a good sense of how accurate the data is and how to use it appropriately ACCURACY CLASS ACCURACY CODE CLASS RANGE 5 decimeter 1 meter 2 meter i 5 meter 2 01 5 00 meters 10 meter 5 01 10 00 meters 20 meter 10 01 20 00 meters Table B 1 Relative Accuracy Classification Standards 39 I GENERAL CONCEPTS AND DEFINITIONS To understand positional accuracy one must look at its individual components 1 Accuracy and 2 Precision Whereas accuracy is connected to the quality of a result precision is connected to the quality of the operation used to obtain the result For example a measuring tape that has been crimped or stretch may measure a
18. from at least three satellites are required A minimum of four satellite signals are needed for determination of vertical position GPS receivers calculate the distance to each satellite by measuring the time interval between the transmission and the reception of a satellite signal Once the distance measurements of at least three satellites are known the method of trilateration can be used to determine the position of the GPS receiver GPS can be used worldwide 24 hours a day and in all types of weather While positional accuracy can be very high it does vary depending on the type of GPS receiver field techniques used post processing of data and error from various sources For further information reference Section A V A about SOURCES OF ERROR and Section A IV about DATA COLLECTION amp PROCESSING METHODOLOGY gt NYS Office for Technology Policy 20 Dec 2006 lt http www oft state ny us policy tp_9618 htm gt Alfred Leick GPS Satellite Surveying Second Edition 1995 60 gt North Carolina Statewide Global Positioning System GPS Data Collection and Documentation Standards Version 3 20 Dec 2006 lt http cgia cgia state nc us gicc gt Illustration of the Three GPS System Segments C Space Segment Yr hj bf ff Ground Antennas Master Control Station Ground Segment User Segment GPS Control Segments 20 Dec 2006 lt http www mitrecaasd org proj_images satn
19. http www ngs noaa gov CORS Data html gt I3 Global Positioning System Overview 20 Dec 2006 lt http www colorado edu geography gcraft notes gps gps html gt 22 ionospheric model transmitted in the GPS signal compensates for approximately 50 of this delay The balance must be resolved through differential correction Weather conditions including cloud cover and precipitation generally do not affect the GPS receivers hardware capability of collecting accurate data However cold temperatures near and below freezing could affect the GPS receiver LCD screen and battery life 3 Distance from Base Station While differential correction will increase the quality of the data accuracy is degraded slightly as the distance from the base station increases Users should use the nearest base station to where the data is being collected With the implementation of the NYS CORS Base Station Network see Appendix E across the State the density of base stations is increasing This network should be sufficient to provide differential correction for GIS users in most situations 4 Selective Availability SA SA is the intentional degradation of the GPS signals by the Department of Defense DOD to limit accuracy for non U S military and government users The potential error due to SA is between 30 to 100 meters SA is presently turned off but the DOD reserves the right to turn it back on at any time and in specific geographic theaters
20. i e elevation masks DOP limits data collection duration etc o note any anomalies Review field notes o note any anomalies that may not have been caught in mapping o review established reference markers map ties etc Review digital files visually o overall view looking for large blunders verify relative accuracy standards for point and line features verify spacing of reference markers etc verify spacing or number of position fixes on line and point features verify offsets and supplemental traverses o verify map datum and translations Review digital files using automated methods if available Review hard copy output for completeness and presentation Verify that other returns are complete particularly digital files O O O O Detailed Audit The next level of QA is the detailed audit and it essentially equals the level of detail the Contractor should have invested in Quality Control checks before submitting the data In addition to the procedures outlined above in the Quality Check audit the detailed audit includes the re processing of the raw data and a review of the parameters used in data collection efforts and Quality Assurance procedures This level of audit requires a thorough understanding of GPS concepts and practical experience is essential If a separate consultant is hired to perform these audits they must be unaffiliated with the Contractor originally conducting the survey This requires both GPS pos
21. if there are gross errors i e does not meet the accuracy standards defined in mission planning of a project in the GPS data by comparing the GPS data positions to the high resolution orthoimagery It may be necessary to recollect data if the original data do not meet project needs NYSDOP has been producing orthoimagery since 2001 with high resolution orthoimagery available statewide outside New York City for viewing and downloading More information about the New York State Digital Orthoimagery DOI Program can be found at the following webpage http www nysgis state ny us gateway orthoprogram index cfm The SCTM digital parcel map should only be used to determine if there are gross errors in the GPS data as well The SCTM is best used for generalizations and as a reference After conducting quality control and if your positional requirements are not met it may be necessary to recollect the data E Data Collection 1 GPS Receiver Antenna In order to minimize loss of GPS satellite lock users should whenever practicable orient the GPS antenna skyward and in the case of handheld GPS receivers avoid signal blockage by their upper body and head In addition when recording the location of tall features e g trees utility poles it is a good practice to approach the feature from the south positioning the GPS receiver antenna on the south side of the feature This recommendation is due to the fact that in the northern hemisphere GPS
22. individual users alike It is supported by the Guidelines section and provides a common reference for use in classifying different surveys by data precision and relative accuracy In turn these common accuracy classes support the Specifications section that details how a target accuracy can be achieved The level of accuracy desired for each feature type has a direct impact on the time and cost associated with achieving that accuracy so it is recommended when contracting out GPS data collection that the desired accuracy be carefully considered in the scoping of the project Accuracy standards specify the relative accuracy of positions while specifications detail how the standards can be met and what rules to follow to meet them This section specifies positional accuracy while Section C Content Specifications details how they can be met Relative accuracy differs from absolute accuracy in that it is a measure against a relative position e g a previous GPS point vs one that has been established through traditional surveying methods or surveying grade GPS that ties into an established National Spatial Reference System NSRS benchmark The National Geodetic Survey manages the NSRS In order to determine the true accuracy for a point taken with a resource mapping grade GPS receiver each point would have to be surveyed using traditional survey methods and that is beyond the scope of this document While it is possible to acquire a GPS point on an
23. it is not possible to collect data clearly from endpoint intersection to endpoint intersection then the intentional errors created by over runs are preferred to the unintentional ones created by under runs GDOT will accept over run errors within a range of 50 to 100 feet See Figure 3 for a diagram showing the correct procedure for collection over runs 71 FIGURE 3 Start Zone Stop Zone E Start Collection L Stop Collection Over Run Start and Stop Collection Zones IHI Turning vs Head On Approach Collect centerline features using a head on approach As you approach a road trail or sidewalk for collection do not start collection until you are aligned in a straightforward fashion with the feature Do not start collecting data while you are approaching a feature This will not accurately represent the feature being collected and will present problems for staff trying to integrate the data in to the USGS DLG F data set Figure 4 shows the correct way to approach a feature for collection FIGURE 4 wrong right E Start Collection 6 Step Collection Turning Versus Head On Approach 12 IV Obstructions in the Collection Path If a road sidewalk or trail cannot be safely traveled it 1s not considered accessible to the public and therefore is not eligible for collection under this data standard However some centerlines may have objects like tree limbs built up water dead animals or fallen rocks blocking the co
24. meters Rover Roving GPS Receiver Any mobile GPS receiver and data collector used for determining location in the field A roving GPS receiver s position can be differentially corrected relative to a stationary base GPS receiver RTK Real Time Kinematic A real time differential GPS method that uses carrier phase measurements for greater accuracy RTK measurements typically yield relative horizontal accuracy of approximately one centimeter SBAS Satellite Based Augmentation System The generic term that refers to differential GPS applied to a wide area such as an entire continent WAAS and EGNOS are examples of SBAS networks and are comprised of a series of reference stations that generate GPS corrections which are broadcast to GPS rovers via geostationary satellites Selective Availability SA The artificial and deliberate degradation of GPS satellite signals by the United States Department of Defense Selective Availability was implemented in order to enhance national security but was turned off on May 10 2000 due to the presence of several sources of various differential correction DGPS messages which rendered SA obsolete The SA bias on each satellite signal is different and so the resulting position solution is a function of the combined SA bias from each satellite used in the navigation solution Because SA is a changing bias with low frequency terms in excess of a few hours position solutions or individual satellite vehicle
25. or expected value reflecting the random error in the individual fixes These values are useful estimates of precision so long as the data is unaffected by biases due to blunders or uncorrected systematic effects By combining precision with reliability Quality Control procedures or precision in the absence of bias the distance between true and relative accuracy can be minimized to produce the best possible result Figure B 1 Precise Figure B 2 Accurate Figure B 3 Precise but not accurate but not precise AND accurate 40 ITI GPS ACCURACY STANDARDS Before continuing acquire the following resources 1 Geospatial Positioning Accuracy Standards Part 3 National Standard for Spatial Data Accuracy http www fgdc gov standards documents standards accuracy chapter3 pdf and 2 Positional Accuracy Handbook Using the National Standard for Spatial Data Accuracy to Measure and Report Geographic Data Quality http www mnplan state mn us pdf 1999 mic nssda_o pdf The different relative accuracy classes listed in Table B 1 Relative Accuracy Classification Standards provide a common frame of reference for assessing the reliability of results in a single class of features and also between different features In order to instill confidence in these classes it is necessary for the reported values to be validated by a process that is reproducible While even recreational receivers have the capacity to store values that provide a measure of p
26. or other entity administering the Contract Contractor Corporation firm or individual that provides works or services to the Agency under terms and conditions of a contract Contract Agency representative who has authority for issuing and managing the contract and Administrator for receiving the items or services delivered by the Contractor Data Processor A trained employee of the Contractor who performs the calculations to convert raw field GPS data into processed maps databases using DGPS procedures and QC checking editing DGPS Differential GPS i e pseudorange code positioning differentially corrected either post mission or real time Dynamic mode Collection of GPS data while traveling along a linear feature to be surveyed e g a road or watercourse Field Operator An employee of the Contractor who performs the field portion of the data collection Geoid The equipotential surface approximating Mean Sea Level GPS Global Positioning System as operated by the United States Department of Defense US DoD Also called NAVSTAR GPS Event A GPS Event is a single position instead of a group of positions averaged to a single position i e Static survey Events are typically used when the antenna cannot or need not be stationary over a point GPS Reference A GPS receiver located at a known location collecting data continuously to be used Station for correcting field data either in real time or post mission Also known as a b
27. results are inconsistent and use of these correction data are not recommended for real time differential correction Post processing is also recommended when base station radio signals are blocked by terrain D Quality Control and Reporting Quality Control QC and Quality Assurance QA procedures ensure reliability in GPS survey results and instill confidence in the data Whereas QC procedures are undertaken by the GPS Contractor to ensure accuracy and completeness of the data produced throughout the data collection effort QA procedures are the responsibility of the Contracting Agency to ensure the GPS data are accurately imported into existing map databases once received QC procedures are discussed here QA and auditing procedures are outlined in Section A V E Quality Assurance and Audit Once again it is important to stress that QA QC specifications should be considered very carefully and balanced against the needs of the project They will almost always add something to the cost It is always good practice to follow Quality Control and Quality Assurance procedures internally as well 26 1 Validation and Quality Control Requiring Contractors to submit a small trial run or validation survey in order to pre qualify for responding to a GPS survey contract is a logical place to start controlling the process of creating high quality reliable data These surveys provide insight into a Contractors technical capabilities and ability
28. satellites are not present in the northern sky except at very high elevations above the horizon i e gt 70 degrees 2 Prohibit Data Dictionary Editing It is recommended to prohibit the editing of the data dictionary in the field in order to ensure uniformity in the data attributes being collected 3 Data Download It is recommended to download the collected data from the GPS receiver to a local computer as soon as possible after returning from the field to minimize the risk of losing the data on the GPS receiver due to battery failure inability to store additional data or overwriting existing data 4 Post Processing It is recommended that users employ post processed differential correction as part of their GPS data management workflow as soon as practicable after downloading data from a field device Three key benefits to adhering to this approach are Rapid identification of reference stations that are out of service or are experiencing communication interruptions Avoidance of encountering a condition where reference station files are no longer available because they have been deleted from the provider s server ll NYS GIS Clearinghouse Digital Orthoimagery Program 12 February 2007 lt http www nysgis state ny us gateway orthoprogram index cfm gt 21 Compliance with a standardized workflow procedure that delivers data in its final form swiftly allowing for archiving of raw field and intermediate data files an
29. singular feature to be accurately reflected while allowing for the continuous collection of the feature Linear features like road sidewalk and trail centerlines are dynamic and change often Data collectors should use the segmentation feature of the GPS unit to reflect these changes During the post processing phase be cautious of data that shows little differentiation along given linear features 76 FIGURE 9 gravel stone surface type bituminous surface type point to apply segmentation function Use of the Segmentation Function IX Repeating The repeat function allows data collectors to copy feature attributes from the most recently collected data feature to the one currently being collected This function may improve efficiency in data collection if many roads sidewalks and or trails are to be collected that share like features attributes 71 APPENDIX I SAMPLE PROJ ECT SPECIFICATIONS This entire appendix is based on the British Columbia Standards Specifications and Guidelines for Resource Surveys Using GPS Technology Appendix A with some minor reformatting I APPLICATION The Content Specifications facilitate standardization and quality control for geo spatial data acquired via GPS technology for Agencies contracting out GPS data collection This document is provided for use by Contracting Agencies without a pre established specifications geared to GPS data collection using differential GPS techniques with res
30. table top consistently too short or too long making it report low accuracy an incorrect absolute measurement but if the same value was returned each time then the process of measuring the table can be defined as one of high precision see Figure B 1 below Likewise an x y coordinate captured for a point by a GPS receiver reporting the same number repeatedly but the coordinate isn t the same as the absolute coordinate for the point is defined as high precision but not highly accurate Accuracy is defined as the proximity of a horizontal coordinate or an elevation to the true value The closer the approximate value is to the true value the higher its accuracy see Figure B 3 below Ultimately only relative accuracy can be estimated because the true value or absolute value of a feature requires traditional surveying methods to acquire Statistically speaking precision measures the tendency of a set of numbers to cluster around the mean of those same numbers without regard to the true value Figure B 1 Any method that results in a number close to this mean e g a GPS point would be of higher precision Common ways to measure precision are via the standard deviation and the root mean square RMS methods Many GPS applications contain an option for outputting the data with a standard deviation value for each feature These methods produce a value that estimates the spread or dispersion of individual point fixes around their mean averaged
31. the accuracy of their data and when required by an audit When more than four satellites are available for determining a British Columbia Standards Specifications and Guidelines for Resource Surveys Using GPS Technology pp D 41 33 positional fix extra i e redundant information is available to the receiver that yields what is called an over determined solution Redundant information can make the data more accurate because there are more satellites to choose from in calculating the position and it also provides additional Statistical information This information comes in two forms e g solution variances and observation residuals and can be used for quality control assessment with desktop software capable of processing it At present most desktop software shipped with mapping resource grade GPS units aren t capable of processing this information but this may change in the future 1 il Filtering Some manufacturers of GPS systems utilize a variety of techniques for interpolating filtering and estimating GPS data in their software Details on these techniques are too involved for this document and they will simply be referred to collectively as filtering For these manufacturers the functionality is always implemented in the desktop software but not always in the receiver This determines whether the filtering can be applied dynamically in the field or only during post processing Some receivers have a corresp
32. the station referenced using adjacent features i e road intersections sign posts bearing trees etc to assist in the future location and in determining that it has remained undisturbed Suitable markers include iron bars driven into the soil spikes in asphalt or concrete or other markers that the Contractor and Agency determine will remain stable during and for a reasonable time after project completion It is required that the separation distance between the GPS Reference Station and field receivers be less than kilometers or the separation distance used during Validation whichever is less The minimum elevation angle mask of the GPS Reference Station should be 10 degrees If real time corrections are used it is required that the Contractor validate the GPS Reference Station according to accepted industry procedures If real time corrections are used it is required that the RTCM Age of the rover GPS system not exceed seconds See Table IV 1 Suggested Maximum RTCM Correction Age Settings for information on correction ages appropriate for various accuracies PROCESSING AND QUALITY CONTROL 1 All GPS positions are to be corrected by standard differential GPS methods pseudorange or navigation corrections If navigation corrections are used the same set of GPS satellites are to be used at the GPS Reference Station as at the field receiver for all corrected positions If the GPS receiver and or post mission software provides th
33. these guidelines are generally intended to improve the quality of GPS collected data following these guidelines does not guarantee that any suggested combination of hardware and methods will insure a prescribed accuracy A myriad of factors influence GPS data quality many of them not under the direct control of the user Guidelines alone cannot substitute for experience and judgment in the field Specifications should balance the needs for accuracy against the resources available for the project The user of these guidelines should understand that GPS technology is rapidly changing Users of this document require training and a base knowledge of GPS software and hardware The GPS technology is constantly evolving necessitating the evolution of these guidelines In order to maintain the accuracy of these guidelines this document will be reviewed and updated as necessary In February 2006 the NYS GIS Coordination Program through the NYS Office of Cyber Security amp Critical Infrastructure Coordination CSCIC presented a three hour workshop introducing GIS practitioners to the basic concepts functionality accuracy issues and processes of data collection via GPS demonstrating the integration of GPS data into a GIS and illustrating how positional error within GPS data may affect the results of a GIS project Additionally a DVD of this workshop was created and may be of interest to the readers of this document This DVD is available upon request
34. to assess a project and plan the data collection and processing efforts accordingly If poor results are received in a Contractors validation survey it may have a bearing on how the actual project will be conducted Reviewing Contractor credentials to determine their success in conducting past GPS work is highly recommended 2 Quality Control QC The primary QC method is to ensure that parameters associated with field data capture were followed Many of the procedures outlined in Sections A V C Differential Correction to Improve GPS Data Accuracy above and A V D 3 Recommended Data Collection Methods below detail field procedures processing methods and specifications that help control GPS data quality Additional specific QC procedures that help ensure GPS survey data is as reliable and accurate as possible are detailed below i PDOP Masks Not all GPS receivers have settings that enforce that no data be collected when Position Dilution of Precision PDOP values are too high Ideally PDOP values are logged for each position fix for verification When the receiver isn t capable of this PDOPs can be computed afterwards with most manufacturers software Whenever possible it is suggested that the following QC parameters be output solution standard deviations residuals variance factors etc The capabilities of commercial software that offer these outputs vary by manufacturer e 2D vs 3D Most mapping resource grade GPS receivers a
35. to the Federal Geographic Data Committee FGDC standards is important and valuable It is required that metadata accompany all data collected with GPS as it e Maintains the value of the data set over time e Preserves the data description e g origin format use purpose e Allows users to search for and use existing geospatial data and contributed to an NSDI Clearinghouse such as the NYS GIS Clearinghouse 8 Content Standard for Digital Geospatial Metadata 20 Dec 2006 lt http www fgdc gov standards projects FGDC standards projects metadata base metadata gt 54 Appendix A Glossary of Useful Terms Accuracy The degree of conformity with a standard or accepted value Accuracy relates to the quality of the result and is distinguished from precision which relates to the quality of the operation by which the result is obtained Autonomous Positioning The least precise form of positioning that a GPS receiver can produce The position fix is calculated in real time from satellite data alone Autonomous positions are generally accurate to within 10 meters Base station A base station is comprised of a GPS antenna and GPS receiver positioned at a known location specifically to collect data for differential correction The purpose of the base station is to provide reference data for performing differential correction on data collected in the field Base data need to be collected at the same time as you collect data with a GPS rov
36. 4 Data Collection Under Difficult CONCITIONS ccccscescccssctsccssscsceessssscesssesees ceseesees 24 C Differential Correction to Improve GPS Data ACCUraCy ssscccssrscssssccesssccssseccesssee cece ees 24 1 Post Processing Differential COrrectiOn scccccsssssscsssscesssssessscecessseceseescnseces cesses s 25 2 Real Time Differential COrrection scccccssscscssssccscessscssesssscssessssssescssses sees cess ceseess 25 D Quality ControU and REDOMUING seirian T A 26 La yaudatiomand QUAY CONLO lescesizcissicssnsiseveeteciescaceciowstiacensasedsaceseuatcecteverueassioudireeesies 27 2V QUAY CONTOU OC eons E 27 3 Recommended Data Collection MethodS essesseeeeesseesssseoesseoceesseoceeseoeesosessoceesseoe 28 A Advanced Data PFOCESSING cscassscestesdst ucsceessiecestdelestescecetisecstesedleadedesriaeleeceueeneeies a 33 E QUALILY Assurance and AUG IU iesecsossecexnsnscetescaveceresecwceniensensedsacavei sda eceuiecsiadeddsssetetercesceesestesWieies 235 1 Quality Assurance and Accuracy REQUIFEMENNG sscccsscccccssscssssetccssrtesseeseseeeees 235 DW OUa ASSUAGE sirnane E RS 36 SECTION B ACCURACY STANDARDS le INTRODUC HOMNE RE E T EA AE T 39 Ils GENERAL CONCEPTS anda DEFINITIONS viitrninenicni ena E 40 GPS ACCURACY STANDARD Sse cpccacceseenceccesecevssaeedeenicessstacthes E E EE NA 41 Pix Re ODSENVAUION ssckeneveicsacsssiesvorisatscctuseesteeeveesserescieceuetiowelwcsdva
37. 5 Appendix D Map of NYSDOT CORS Station ccssccsssscscssssccesssscesssseccsnsecesssseccssscecesscccess s sessesesseess 66 Appendix E Nat l and Cooperative CORS Map of New York State ccssscccsssrscsssercceseee cecesseees 67 Appendix F Wide Area Augmentation System WAAS OVErVieW csssccccssssrssssrscessscesceesseeeesees 68 Appendix G United States Coast Guard Differential GPS Coverage Of NYS ccccsscceecsesseeees 69 Appendix H Recommended Data Collection PractiCes cccssccsssccscccssccesssceccssseccesssceses secseeseeees 0 Appendix Sample Project Specificatione cssssccccsssecessssscsssssecssssccsssssecsessecsessecsessees sesssseseess 18 Appendix J Sample GPS Contractor ReEport ccsccsssssccssssscssssscssssecssssecsssssscssessesssssecsssssesen s sorene 85 Appendix K Fieta Equipment Lis Gerniinreininiiii i A E E eater eealyaeseneheds 86 Appendix L Evaluating GPS Professionalls csccccsscscsssscsssssecesssecessssscsseees sescessscesssscecenscese scssseesess 87 GPS QUICK REFERENCE GUIDE I Mapping Grade GPS e Critical Settings O O O Position Mode Recommended manual 3D mode requires 4 satellites Minimum Satellites This guideline recommends 4 Elevation Mask It is recommended that a mask of 15 degrees be applied It may be appropriate to increase the Elevation Mask when collecting data in valleys or urban areas Signal to Noise
38. GPS WAAS was developed to support real time navigation not mapping activities Most WAAS capable GPS receivers are recreational grade Users should consider the following issues when deciding if and how to use a WAAS capable GPS receiver 1 WAAS AVAILABILITY WAAS supports aviation uses in which obstacles and terrain do not block WAAS satellites on the horizon satellite 35 over the Atlantic Ocean and satellite 47 over the Pacific In Vermont WAAS capable GPS receivers may be highly sensitive to terrain and obstacles blocking the horizon These receivers also take about 10 30 minutes to acquire WAAS signals the first time then about 1 2 minutes for subsequent uses 2 REAL TIME DIFFERENTIAL CORRECTION METHOD For real time differential correction WAAS capable recreational GPS receivers are less expensive and bulky than recreational units with beacon on the belt BoB receivers Depending on the site however a GPS with BoB may be less susceptible to obstacles and terrain interference because ground based beacons are physically closer and are located in several different directions around the data collection site 3 RECREATIONAL VS MAPPING GRADE RECEIVER WAAS has the potential to improve the horizontal and vertical accuracy of recreational grade GPS data to approximately 7 meters Differentially corrected mapping grade GPS data are still more accurate Mapping grade receivers also have better data logging capabilities
39. Global Positioning System GPS Data Collection Guidelines Mapping Grade GPS Suffolk County New York DRAFT April 2008 Purpose The goal of this document is to provide a means of quality control and accuracy documentation of Geographic Information System GIS data sets created with Global Positioning System GPS technology It is geared primarily for the mapping grade GPS user These GPS data collection guidelines seek to accomplish the following objectives 1 Establish methodology for collecting GPS data for use in a GIS 2 Provide guidelines for reporting metadata about GPS collected data and methods means used to collect such data 3 Supply GPS users with definitions of GPS terms and abbreviations and 4 Eliminate or reduce known and potential systematic errors This document was developed by the Suffolk County Long Island GPS Sub Committee chaired by M Ross Baldwin A large amount of material and formatting for this document was obtained and used with permission from the GPS Standards Subcommittee within the Standards amp Data Coordination Work Group of the NYS GIS Coordination Program www nysgis state ny us and the VT GPS Guidelines document written by the Vermont Center for Geographic Information s Technical Advisory Committee led by Mike Brouillette http www vcgi org techres standards partiii_section_l doc A special thanks to James Gormley for compiling the GPS Quick Reference Guide While
40. ISSION PLANNIN sccanccsasceccatessseseedoceincsucseusosecsurcelassccucansestetneve casvenvceasenoianasecedssasecatdacesthssesscieve cease 18 1 Satellite Availability and Known OutageS eseseseseesseessoesesoesssoeeeseoeseoeesseonseoeeseee e 18 2 Position Dilution of Precision PDOP eesseeesssseeesseeeeesoeeesssosessocesesseeessoceeeeoeeesseoe sees 18 3 Locat ODstructions of ENG SKY sssqtcccesscccecisexcancusicaedetcsecvecaechecstesesdevenccenzsevesuodacesseacesee kesite 18 B GPS Receiver CONfiQuratiOn ccccccssssccssssscsssssccesssscccsssecsesssecesssseccesscccesssscessssesessees seceseees 18 1 Position Dilution of Precision PDOP cccsscsccsssssscessssssessssssssccsssseceesssees cescesseeses 18 2 Signal to Noise Ration SNR Mask cccssccscsssscssssesccsseecesssscesssscececseessesssseees sesseeees 19 Be Elevation Mask PAIL Cis cerarscaecsstadewscsceceatscenccaevscceesecteecsectesanive ddevecsacnecsnsaeesiverecsssctevsne ceuee 19 4 Data Collection Rate eseesseeesseeeeeceeesseoceeseceeessoeessecceessseoesseoeeessesessooeeesseeesseocessooees ceses 19 SFO a EE EET 19 G POO Oier nE EA AEE E SSES E lt 19 TAE e Ol INCAS E E EA A E E EE EEE E E A 20 C GPS Data Download and ProcesSing seseeeessseeeseeeesseeeseceessoceseoeessooeesoeessoeesoeesseeeesseeso esseere 20 D QUAY CONO ere E 21 E Data COOC UON en E E EE 21 Ts GPS RECEIVED ANCE NMA issccessisvvesceassccc
41. National Geophysical Data Center s Geomagnetism home page and values can be computed using their on line Magnetic Declination Calculator The accuracy of the predicted magnetic declination is variable and local anomalies can exist The following table associates the effects of compass precision and offset distance Both analogue and digital compasses are affected by magnetic declination and local variations Compass Compass Declination amp Offset Offset Point Instrumentation Precision Variation Uncertainty Distance Uncertainty approximate Standard Compass 1 0m e g Silva Ranger 15T 2 0m 3 9m Precise Compass 0 6m e g Suunto KB 14D 1 2m 2 5m Digital Compass ices 0 f 0 6m e g MapStar Laser 1 1m Atlanta 2 3m Table IV 5 Offset Accuracy vs Instrumentation Precision amp Offset Distance ix Linear Offsets For linear offsets digitized in a dynamic traverse maintaining a constant offset distance from the feature is essential particularly when collecting data from a vehicle when both speed of travel and practical safety concerns can affect the offset distance Keeping the offset distance small i e less than 5m in dynamic traverses can help minimize error When linear offsets are digitized in a static traverse each offset can be a managed individually and does not necessarily have to be a constant value 4 Advanced Data Processing This section is provided for users wishing to go the extra mile in validating
42. Personnel Project Manager Data Processor 2 Type of rover hardware 3 Processing software type and version number 4 Observational parameters such as DOPs SNR and elevation masks 5 Separation distances between Reference Station and rover and 6 Number of epochs fixes averaged at static points Some practical considerations when deciding to utilize a validation survey requirement include It would be unreasonable to require this for a small project unless the features being collected are extremely important and accuracy is a premium Firms located further away from the test site may be at a competitive disadvantage than companies located nearby The test should take no longer than one day to complete including reasonable round trip driving times No one can operate a business at a loss so it is unreasonable to expect the cost of this extra level of effort will not be reflected somewhere in a Contractors proposal Those that don t charge it up front may simply charge a higher hourly rate Contractor results should be within both the horizontal and or vertical target accuracies if applicable VI PRE FIELDWORK PROCEDURES A Proposal Meeting It is recommended the Contract Administrator conduct a meeting upon release of a project Request for Proposals RFP to clearly define the feature s to be surveyed to identify High Significance from Standard Significance points if applicable project extent and guidel
43. They are useful in defining general reference points or when the GPS antenna can t remain stationary over a point feature i e during collection efforts while using a car They will not work if signals to the antenna are blocked at the instant the mark is taken To gain a sense of how accurate the event times must be in relation to the speed of travel the following tables depicts different accuracies at different times and assumes the quickmark be accurate to one half of the target accuracy For example if the accuracy specification is 10m and the traveling speed is 50km h 14m s Event times must be accurate to one half of 10m divided by the speed i e 5m divided by 14m s 0 36 seconds British Columbia Standards Specifications and Guidelines for Resource Surveys Using GPS Technology pp D 38 31 Accuracy Accuracy 1 0m S5km h 1 4m s 0 36 seconds 0 06 seconds 0 03 seconds 0 02 seconds 2 0m 0 72 seconds 0 12 seconds 0 04 seconds 0 04 seconds 5 0 m 1 80 seconds 0 30 seconds 0 15 seconds 0 09 seconds 10 0 m 3 60 seconds 0 60 seconds 0 30 seconds 100km h 28m s 0 18 seconds Table IV 4 Desired Point Accuracy vs Speed amp Timing Accuracy vii Point and Line Offsets Offsets allow the capture of points without having to directly occupy them Using a bearing and distance measure the GPS receiver applies and adjustment to its present location to derive the offset The accuracy of the offset is su
44. accuracy through visually and or quantitatively checking 15 of all data This audit is geared so that technicians and those with minimal GPS experience can conduct the audit successfully Checking relative data accuracy by following procedures outlined in the Assessing Linear Features and Assessing Point Features noted above can provide a check on relative accuracy through comparison of the raw individual position fixes and the final interpreted lines or averaged points This visual review can also reveal things like the distance between position fixes and number of position fixes per point feature The observed distance between fixes can be compared to the reported method of collection and Section A V D 3 ii Table IV 3 Dynamic Traversing Speed amp Data Rate vs Point Separation to check for continuity between the report and the data The procedures below outline a Quality Check Audit22 Centralize all submitted data and materials 2 Create a review directory in the existing project directory e g QAQC 2 Copy all submitted digital files to the directory British Columbia Standards Specifications and Guidelines for Resource Surveys Using GPS Technology pp D 79 36 lil gt gt gt hS Review project report o review dates of milestones i e field survey post processing mapping o review equipment personnel etc o specifically note data capture parameters
45. and man or machine made structures and objects thereon the lengths and directions of boundary lines the contour of the surface and the application of rules and regulations in accordance with local requirements incidental to subdivisions for the correct determination description conveying and recording thereof or for the establishment or reestablishment thereof AND No official of this state or of any city county town or village therein charged with the enforcement of laws ordinances or regulations shall accept or approve any plans or specifications that are not stamped More information about these New York State Education laws can be found online at http www op nysed gov pefag htm NYS Education Law Article 14 23 Jan 2007 lt http www op nysed gov articlel45 htm gt TABLE OF CONTENTS SECTION A GUIDELINES GPS QUICK REFERENCE GUIDE pigi ree J EXPLANATION OF GEOGRAPHIC INFORMATION SYSTEMS AND GLOBAL POSITIONING SYSTEMS ee 9 A Geographic Information SyStemMS eeesseesseeessoeseoeeseeeseoeeesorsseeesecssoeeeseoescoeeceeesooeeceeeseoeeeeeseoeeeeeeseoeeeeeesee 9 Be Global POSITIONS 9 SUSIMS 5 acccctccectacectedestecaedoceatoacessasecceoseeiesseocteoneewesdescessesectccsaerstevstessensecsessaceese 9 C Illustration of the Three GPS System SEQMEeNGS ssccccssccccssrsccsssseccessecesscesssseecesseeceees 10 ee CATEGORIES OF GPS ARE GEIVER Siscecsecececsecesessccaacateseseasans
46. and menu attributes maximum character length for a character string maximum character length for a user code and maximum character length for comments Critical Settings Traditionally the user had full control over all of the critical settings that affect the quality of captured data Increasingly these settings are being pre defined by manufacturers in an attempt to make receivers easier to use While this may be desirable most of the time it is useful to have the choice to control them manually Invariably you will find yourself one day in a deep river valley at dusk coming to the conclusion that a point captured with a lower PDOP threshold is better than no point at all Critical settings include Logging interval time between positions Minimum positions minimum number of positions required to log point feature Minimum time ensures acquisition of carrier phase information to calculate higher accuracy features Position mode driven by accuracy needs Options are 2D x y Manual 2D 3D or 3D x y z Elevation mask prevents GPS receiver from using satellites not visible by the base station Signal to noise ratio SNR mask prevents receiver from recording positions with low signal quality PDOP mask and switch prevents receiver from logging inaccurate positions due to poor satellite geometry 17 IV DATA COLLECTION AND PROCESSING METHODOLOGY Methodology refers to the techniques a user should apply prio
47. ar offset distances are to be checked and adjusted periodically It is required that supplemental traverses meet these following rules The supplemental traverse is to begin and end on physically marked High Significance GPS static points PoC and PoT The distance traversed is to be less than___ _ _ __ meters The supplemental traverse is to close between the GPS PoC and PoT by ___ meters 1 _00_ of the linear distance traversed The supplemental traverse is to be balanced between the GPS PoC and PoT by an acceptable method i e compass rule adjustment ____ meters along linear features enter N A if not applicable These markers must adhere to contracting Agency standards or be accepted before the work commences It is required that static point features be collected at all physical reference markers These static point features are to be collected as STANDARD HIGH circle one Significance points It is required that the GPS receiver s default Signal to Noise Ratio SNR mask 6 for high accuracy be used This CAN CANNOT circle one be relaxed during traversing of linear features GPS REFERENCE STATIONS 1 If the Contractor chooses to establish or use a previously established reference station and not a CORS Base Station then it must be monumented physically marked to allow the contracting Agency or other Contractors to re occupy the same location Physical reference marks are to be left and
48. artesian coordinate system used by the WGS 84 reference frame The center of the system is at the earth s center of mass The z axis is coincident with the mean rotational axis of the earth the x axis passes through OxN and OxE the y axis is perpendicular to the plane of the x and z axes EGNOS European Geostationary Navigation Overlay Service A satellite based augmentation system SBAS that provides a differential correction service for GPS users in Europe EGNOS is the European equivalent of WAAS which is available in the United States Elevation Mask The angle above and relative to the horizon below which your GPS rover will not track satellites It is normally set to 15 to avoid interference problems caused by buildings and trees and multipath errors and avoid the rover GPS receiver using a GPS satellite that the base station is not tracking Ellipsoid An ellipsoid is the three dimensional shape that is used as the basis for mathematically modeling the earth s surface The ellipsoid is defined by the lengths of the minor and major axes The earth s minor axis is the polar axis and the major axis is the equatorial axis Ephemeris The current satellite position predictions that are transmitted from a GPS satellite in the NAVDATA message Epoch The measurement interval of a GPS receiver 56 Geoid A mathematical surface of constant gravitational potential that approximates sea level See Mean Sea Level below Or the equip
49. ase Station NAD27 North American Datum of 1927 based on the Clarke 1866 ellipsoid NAD83 North American Datum of 1983 based on the Geodetic Reference System 1980 GRS80 ellipsoid NAVD88 amp The North American Vertical Datum of 1988 vertical control datum established in 1991 Static mode Collection of GPS data at a discrete point while remaining stationary Supplemental Supplemental Traverses are conventional traverses e g compass and tape that are Traverse integrated with GPS surveys UTM Universal Transverse Mercator projection map projection system 45 The statements in this document have been structured according to two levels of compliance required Used to describe tasks that are deemed necessary and are good practice Exceptions are possible but only after careful consideration by the Contracting Agency recommended Used to describe tasks that are deemed desirable and good practice but are left to the discretion of the Contracting Agency In some cases cost is a large factor in recommended tasks vs requiring them even if they are desirable lll GOALS To establish achievable levels of accuracy by task and to classify the surveys to be performed by end specifications aimed at achieving target accuracies To provide a technical document for individuals agencies or the private section to use in contracting GPS related services To provide users with a consistent set of methods that can be used at the indi
50. aseline error It is recommended that the minimum elevation angle mask of the GPS Base Station be 10 degrees This is the default setting for CORS stations If real time corrections are used it is required that the Total Correction Age of the rover GPS system not exceed _15_ seconds The larger the delay between the base station files used to correct the real time position the larger the error introduced IX PROCESSING AND QUALITY CONTROL All GPS positions are to be corrected by standard differential GPS methods pseudorange or navigation corrections If navigation corrections are used the same GPS satellites must be used by the GPS Reference Station and the receiver for all corrected positions If the GPS receiver and or post mission software provides the option for dynamic filtering it is recommended the filters be set to reflect the speed of the operator or vehicle and the software versions and filter settings are to be noted in the project returns It is required that the Contractor implement a Quality Control QC or reliability assessment program in order to show compliance to specified guidelines or standards i e positional accuracy content accuracy completeness data format adherence and data integrity assurance It is required that the Contractor be prepared to entirely re survey those areas that do not meet the compliance standard at their own cost X PROJECT MANAGEMENT and DELIVERABLES Effectively managing the vo
51. atic point features or in point to point traverses to form a linear feature can be done automatically by desktop GPS or CAD GIS software where individual fixes meeting certain criteria are deleted and the position is recomputed One of these criteria is the standard deviation value The goal of most edits to linear of polygon features is to find the best representative line or best fit line using the GPS positions as a guide These lines are created in a variety of ways 1 Manually drawing a line over the GPS position fixes in CAD GIS software commonly referred to as heads up digitizing 2 Sequentially connecting each positional fix to form the line or 3 Deleting outliers Some of these edits can be done automatically in GIS software Regardless of the method there is a certain amount of subjectivity involved by the data processor and this makes it all the more important that they have adequate experience and training to complete the job successfully Asking a green technician to determine which fixes are outliers to interpret the best fit line for complex features or those with noisy data is simply not reasonable or acceptable as the majority of errors in traverses are due to insufficient interpretation Ultimately if the data is too complicated to interpret with an acceptable level of confidence it must be reacquired 34 E Quality Assurance and Audit Whereas Quality Control procedures are undertaken by the GPS Co
52. ault settings set by the manufacturer will be optimal for most occasions SECTION A GUIDELINES I EXPLANATION OF GEOGRAPHIC INFORMATION SYSTEMS AND GLOBAL POSITIONING SYSTEMS A Geographic Information System In its simplest form a Geographic Information System GIS is an electronic map used to display data based on its geographic location in its more complex form it becomes a powerful analytical tool with millions of pieces of data that are related geographically and can be displayed in a format that allows the user to make the inter relationships between the data visually understandable B Global Positioning System The Global Positioning System GPS consists of a constellation of 24 satellites that orbit the earth twice a day making one revolution approximately every 12 hours at an altitude of approximately 124 000 miles The GPS satellite navigation system was initiated by the U S Department of Defense in the 1970 s for military purposes When the system is at full operational capacity there are 24 operational satellites This number changes periodically as satellites are commissioned put into operation and decommissioned removed from operation At the time of this writing 31 satellites were in orbit These satellites broadcast radio signals containing satellite position and precise time data twenty four hours a day These signals enable anyone with a GPS receiver to determine a geographic location The GPS system consists o
53. av segment gif gt 10 ll CATEGORIES OF GPS RECEIVERS A Recreational Grade Accuracy within five to twenty meters These GPS receivers usually do not have the ability to post process collected data but usually have the ability to perform real time correction using Wide Area Augmentation System WAAS GPS receivers can be used to navigate to a specific area and or compile uncorrected GPS data using associated third party software to convert the collected data directly into GIS supported data formats B Mapping Grade Accuracy from sub foot to five meters These GPS receivers have the ability to log raw GPS data enabling these GPS collected data to be post processed utilizing desktop GPS software and allowing locations to be refined or corrected to a higher level of precision than inherent in the raw data This category of GPS receiver also has the ability to communicate with a base station store attributes of features use a data dictionary and upload data from the GPS device to a PC C Survey or High Accuracy Grade These include instruments with associated software that can achieve one centimeter relative accuracy These are used by land surveyors primarily for boundary topographic geodetic surveys photogrammetry and other activities requiring high accuracy Specialized training is needed to use this equipment Depending upon the model corrections may occur as broadcast real time adjustments WAAS or Coast Guard Beacon or b
54. avaccessencvececassensrassestseddacuesesstsscovssetacteevecssbestsrseseveon ibe 21 2 Pronibit Data Dictionary Editing csecsesscsssesecscencccavacevisecsesscsnassceonccesesetsicsectsaceccesssesecatenseas 21 Be DACA DOW WO AC p E E E ES 21 PWV OSC FOC SSSI Ose ccrascstacectat sha E EO 21 De TASS SUA ON eseceec toaceatcannsnnscenecoseuneseesseesses sees exe E E E E 22 Ve GPs ACCURAG TT CONSIDERATION 5 ctseserscssceeccansyerece oeassaveseesectors cearazcancseossecesseeassaeeecanessesssevaceeeseciesasers 22 A SSOURCOS OF Er Ole ececcsdcccs fvccccdeccesatiesceiceascsnsacsacucessncoecssdsnecevs bodcandcennce loses O OAE AEEA 22 Lz WTA ACT aeetas act Giant wes ahaa stented ate hein esas 22 DWAIN SPINE MG sates v05ee ee Satadees gece A O AANE 22 3 Distance from Dase Sta MON ssciececctrsvsesacccvetsveivatsses E E E RE 23 4 SCLC CUIVE AVAILAD INI CY csaistesstaccasuieassucanscarsssstonasanzccesauseanddensvecdacesdusecasaseeneasanenacasnecnassavaeonds 23 Dic NOSO aeeiio n E T T E E ON 23 B Default Settings that Affect GPS Data ACCUraCy esesseesseeeessoeeseeeeseoeesoeeesoees oeessoeeeseeeeoeee 23 1 Position Dilution of Precision PDOP iccccccsssecccessstecdsscssecveeitaccrcoceetstuevsdtiiad diveceeniienec 24 23 Elevation MASK ANO Cs ssiecs cavaceiaaseascesste cast souvecedavesatsouddenscavenceuesscsanatsasscetecossdreaasteasaessdedeucion 24 3 Number of Points Collected Versus Data Collection Rate cssscsscssssreesceees 24
55. bject to the accuracy of the bearing the distance measure and reference GPS position but if the antenna is no longer under canopy as a result of the offset accuracy can improve Some receivers are sophisticated enough to allow for a digital laser range finder that calculates both distance and bearing to the feature and automatically feeds this information into the GPS receiver to calculate the offset Offsets are desirable under field conditions where physical access or satellite obstacles e g forest canopy and safety concerns prevent direct occupation of the feature It can also be more efficient to log features this way e g logging fire hydrants from a vehicle mounted GPS antenna The power of offsets comes with the responsibility to manage them properly in order to avoid the introduction of error All manually entered measurements that help compute offsets must be done correctly and a thorough understanding of magnetic and true azimuths inclination angles and slope and horizontal distances is required to ensure accuracy Receivers supporting offsets usually allow input measurements to be reviewed and edited to remedy any incorrect entries For points acquired by receivers without offset capabilities offsets can still be calculated if measurements are recorded and used in concert with CAD GIS software viii Point Offsets The following procedures are recommended when using point offsets Only use a single Azimuth measurement for the enti
56. cedures Other possibilities for audits include using equipment and skilled in house personnel available to the Agency contracting the work as either a substitute or compliment to the Detailed or Complete Audits The Quality Check Audit should always be conducted This is advantageous when the Agency lacks certain GPS equipment and experience but has traditional surveying resources and skills that can successfully fulfill the audit requirements in certain situations i e when project is in proximity to a known benchmark or reference Tools such as theodolites and digital laser range finders can locate features with a very high degree of absolute accuracy though this approach may be limited to more open areas free of obstacles and forest canopy Traditional methods can also accurately determine areas for polygon features While these methods can register the boundaries to the VSC with a tie in to a known horizontal benchmark this isn t necessary for comparing the area values Subject to data target accuracy other techniques are also possible such as overlying the GPS data with digital data of a known accuracy for visual comparison e g digital Orthophotography from the Vermont Mapping Program 38 SECTION B ACCURACY STANDARDS I INTRODUCTION This section provides a means to classify the estimated accuracy of different GPS data capture efforts It is a resource for entities contracting out GPS data collection responding Contractors or
57. collected to be able to detect systematic multipath at static point features In most cases 45 60 seconds of observations is sufficient for an experienced user post processing the data to detect multipath trends in a point feature Note that this time period is enough to usually detect multipath effects however it may not be enough to ensure accurate and reliable feature coordinates from the remaining fixes once the multipathed fixes are deleted In this case the feature would have to be re surveyed in the field This averaging improves positional accuracy and minimizes random measurement noise and multipath effects In theory accuracy continues to improve as more data is averaged however there is a point of diminishing returns after a number of minutes of recording It is recommended that at least 30 fixes be averaged for every static point observed regardless of the project s accuracy Both the number of individual position fixes and the length of occupation will affect the accuracy for a point feature There are two minimum conditions that must be met The operator must stay for at least the minimum time and have at least the minimum number of position fixes recorded Under marginal observing conditions the operator may have to stay for a longer time to meet the minimum fix requirement The table below details the minimum number of fixes and sampling rate recommended to achieve the desired relative target accuracy detailed
58. d promoting streamlined and simplified file management 5 Base Station The user should determine the quality of the base station being used It is recommended for the novice GPS user that only NOAA NGS published base stations be used Advanced GPS users may have the ability to establish their own base station and should consult the manufacturers guidelines for their specific hardware for instructions It is recommended to utilize a single reference station for all project specific post processed differential correction activities with the exception of projects that cover a large area e g several thousand square miles or long 30 miles or more strand or linear mapping projects This technique will promote data registration uniformity by inducing identical systematic errors if any across the full breadth of your data sets In addition metadata documentation will be simplified and differential correction parameters will be homogeneous across the entire project data set The most commonly used Base Stations for Long Islanders include NYCI NYRH CTDA Conn V GPS ACCURACY CONSIDERATIONS A Sources of Error In order to effectively gather precise accurate data it is necessary to understand potential sources of error that can affect GPS data quality 1 Multipath Errors caused by reflected GPS signals arriving at the GPS receiver typically as a result of nearby structures or other reflective surfaces e g buildings wa
59. d that any deviations in an otherwise straight line point to point traverse must be mapped regardless of the minimum separation between points detailed above This also applies to significant vertical breaks if elevations are required Interpolated points e g GPS Events are recommended to be accurate within seconds Point offsets The following is required to be recorded see Section A IV 3 C 8 Table IV 5 Offset Accuracy vs Instrumentation Precision amp Offset Distance for related information The vertical angle from the GPS antenna to the feature Many compasses also include an inclinometer for this purpose If not automatically set magnetic declination must be factored into any compass readings before computing offset coordinates See the magnetic declination calculator http www ngdc noaa gov seg geomag jsp Declination jsp at the National Geophysical Data Center The maximum distance allowed for a point offsets is meters Bearings accuracy must be at least degrees Distance accuracy must be at least meters Linear offsets The following is required The horizontal distance and the true bearing to the direction of travel The maximum horizontal distance allowable is meters For supplemental traverses it is required that The PoC and PoT physically marked end points must be High Significance GPS static points The distance traversed is to be less than meters The traverse close between the end points by of the linear di
60. d the Contract Administrator provide a clear definition of the feature s to be surveyed which point features are to be considered High Significance and which are to be considered Standard Significance boundaries of the features guidelines for interpretation of special features if necessary it is recommended a specimen layout for interpretative purposes It is recommended the Contract Administrator also provide a clear definition of the deliverables services work quality payment schedule and other relevant contract issues There should be no doubt or confusion as to the nature and quantity of work expected It is recommended the Contract Administrator advise the Contractor of the Audit process i e the method and frequency of data field inspections and surveys that will be used in determining achievement of end specifications in compliance with the conditions of the contract It is recommended the Contract Administrator conduct a field inspection with the Contractor advising them of specific details to include or exclude in the contract work so that there is no doubt as to the nature and quantity of work expected in the contract If physical reference markers are required to be established it is required that the interval and type of markers be stated in the contract and be established according to existing Agency guidelines or requirements e g the Forest Practices Code guidebooks for forest road engineering and boundary mark
61. dactscese sco xtassece E eee see oA 42 B Determinine MENSS DA csoro A N socks 42 C Base Station ACC ACY cinei E TT A Reese See 43 SECTION C CONTENT SPECIFICATIONS l INTRODUCTION reetan E A T T 45 Me TERMINOLOG Vircccoarsacececssesecestavecectedasccsscatesynleteace E E E E EE 45 Me GOALS saiat rra n AE E EEE E O E EEEE 46 IV PRE OQUALIFICA TION AND VALIDATION csccssecsccitesccstasest ct scen ni a 46 As TOEAUSY SUCIM aE E E eases 46 Be Fie Operator Training secies eE ETE ER ase 46 C Data Processor Project Manager TYaining csscccsccssssceccesssccccesssecessssccessssseeceesceesee ees 46 Ds SCOMCFACTOR vadat Meinen a aaa a a 46 Ve WALIDATION SURVE Yerne R T T T E E acc eeseaits 47 Vi PRE FIEEDWORK PROCEDURE viz ccesesccccecssceecteaeecttnk az kctwreeeseossti E NEE T A 47 Pic TPFODOSAN MECUING sesine ereen e EEA TETEE Ce OEE Aa 48 B PUIG UII nacoo E T EA N N 48 Ce FEAS SC ON eseina EEE EEE A AA 48 D RETENC MANKO S osna onee E E SEEE E EEA E EEO 48 Es Map JES E E E E ETA E E EN E A EA 48 Fe ECO AL BONAN O Sucen a a a a med ees 48 G Reduired Survey ACCUY ACIS cschecctosceletavcesveceendiatiedivewisaask EENE 48 Vik MELDWORK ceesre ancene AEE EEEE NAAN E NEEE E AEAEE N ots 48 As Critical ROVER SCUUINGS evscasccesansinccsinevicasadseiesuendousivadenevnchesadeasecarsnesisenn slbsebecs e 48 B Data Couce O is sitee cet ees sient ar sacs ca esac eves ce ce tatctunes asin deiced ensue cutee witete necenat anaes ete
62. e and a 50 bit second navigation message Latitude An angular measurement made from the center of the earth to north or south of the equator It comprises the north south component of the latitude longitude coordinate system which is used in GPS data collection Traditionally north is considered positive and south is considered negative Example 43 south of the equator may be expressed as either unsigned 43 or signed 43 S Longitude An angular measurement made from the center of the earth to the east or west of the Greenwich meridian London England It comprises the east west component of the latitude longitude coordinate system which is used in GPS data collection Traditionally east is considered positive and west is considered negative Example 74 west of the Greenwich meridian may be expressed as either unsigned 74 or signed 74 W Magnetic Declination The local angular difference between magnetic and true north Declination is expressed as a positive or negative angle and varies by location and over time In New York State declination values range from approximately 10 degrees in western Chautauqua County to 15 degrees in northeastern Clinton County 58 Magnetic Declination for the U S 2004 110 W 100 W ee ee a r N 120 W 110 W Mercator Projection Based on the Intemational Geomagnetic Reference Field GRF Epoch 2000 updated to Contos of Declination of the Earth s magnetic December
63. e are a number of different battery types e g lithium ni cad that come in a variety of voltage and Wattage One useful measure in comparing batteries is the Amp hours rating 5 Data Dictionary Design ESRI ArcPad not applicable uses ArcPad Forms A data dictionary is a menu of standard feature attributes i e data elements loaded on a GPS receiver that is used to simplify and standardize data collection of geographic features in the field when recording descriptive information Individual geographic features are represented by multiple coordinate pairs known as fixes that are captured according to the sampling interval of the receiver The data dictionary defines the fill requirements default values and valid codes values domain values for each attribute This approach minimizes the effort of entering in descriptive text via the 16 2 2 gt gt gt gt 2 hS keypad prevents misspelled entries and improves data consistency e g different fields operators might otherwise assign different values to the same feature s Once a company or department defines a data dictionary it can be used repeatedly to standardize data collection and ensure quality control of attributes and their domain values Some receivers are limited to a single dictionary while others can store multiple ones Other limitations worth assessing are character maximum length for the feature name attribute name
64. e interval This time interval will be chosen based on the resulting distance between position fixes which includes consideration of the traveling speed feature complexity and tracking environment It is important that position fixes be recorded at all significant deflections in the linear feature Static point features can be added to record features along the line e g a culvert along a stream survey The individual position fixes are connected to form the linear feature The line can be smoothed and generalized later in mapping GIS software Resource surveys can be done on foot by a Field Operator wearing a GPS backpack from the air via helicopter or fixed wing aircraft and by vehicle truck quad snowmobile bike boat etc These surveys can be very productive but are only suitable if the feature is easy to identify and the vehicle can accurately guide the antenna over the feature at all times These surveys must also conform to the fix spacing limits set by the contracting entity e g a position fix every 25m Also the speed of the vehicle may affect how accurately the feature can be followed The speed limits defined in the following sections are based on the speed that can safely be flown in a helicopter from interviews with pilots familiar with GPS mapping During some road surveys there may be safety reasons to increase the vehicle speed limit e g so as not to impede vehicles on an active road but for most surveys 50 km h 30
65. e option for dynamic filtering the filters are to be set to reflect the speed of the operator or vehicle and the software versions and filter settings are to 82 be noted in the project returns If filtering is applied to GPS Reference Station data this is also to be noted It is recommended the Contractor implement a Quality Control QC or reliability assessment program in order to show compliance to specified standards i e positional accuracy content accuracy completeness data format adherence and data integrity assurance lt is recommended the Contractor be prepared to entirely re survey those areas that do not meet the compliance standard at their own cost PROJ ECT DELIVERABLES It is recommended the Contractor submit a project report that includes the following information as a minimum A brief description of the Contract particulars including the contracting Agency that commissioned the work the Contract Administrator a project name if available and a project identifier e g provincial government s ARCS ORCS number etc A brief description of the project work i e purpose target accuracy location etc A key map showing the project area and a description of any GPS Base Stations used A schedule of events showing key dates milestones i e contract award field data acquisition problems encountered data processing delivery of results etc A listing of all personnel Contractor and Subcontractors i
66. e used when collecting data in wooded or urban areas and anywhere where obstructions to the sky occur Data Dictionary Design It is recommended that a Data dictionary be used but not editable in the field Data Download The data should be downloaded from the receiver to a computer or network as soon as possible Post Processing Recommended even when using a real time correction method O Base Station It is recommended that users use a single reference station throughout the duration of the data collection project For Projects that cover more than 30 miles it might be appropriate to use more than one e Quality Control O Pre Collection Test It may be necessary to collect test points for users who are unfamiliar with the GPS Equipment Use of Ancillary Data Orthophotography Internet mapping options Street centerline data etc Control Points USGS Monuments or any other feature with a known GPS location Users should review data collected to determine if collection procedures established during Mission Planning were Followed e Important Variables that affect GPS Accuracy O Or O O OO 0O Multipath error Atmospheric Distance From Base Station Selective Availability Noise SNR Receiver Default Setting Data Points Collected per feature Differential Correction II Recreation Grade GPS e Since most recreation grade GPS receivers are championed as an easy out of the box data collection solution the def
67. eatability test details An explanation of the deliverables digital and hard copy including formats naming conventions compression utilities media etc A copy of all field notes digital or hard copy A list of all features that have been mapped or surveyed gt B HARD COPY PLANS If the Contracting Agency requires a final hard copy map then the media scale datum etc must conform to Agency cartographic standards if applicable as outlined in the contract and presented with other deliverables Providing the Contractor with a map template is the easiest way to achieve this The following map components are suggested General project information in text boxes project title project number identifier Contracting Agency name Contractor name and date of survey Datum projection and units of measure e g NAD83 ft British Columbia Standards Specifications and Guidelines for Resource Surveys Using GPS Technology pp C 8 51 Scale bar North arrow with either or both True North and Magnetic North Graticules if requested e g 1 000 or 10 000 intervals Source information for non GPS data e g Roads or Surface Water data 2 gt 2 2 hS hS hS It is required that the accuracy of GPS acquired data be stated on the map C GPS DATA AND PROCESSING DELIVERABLES It is required that all raw rover files originally corrected and interpreted originally corrected with edits
68. eature Library A term used to describe the schema or structure that defines the relationship between features and their descriptive attributes that will be located in the field with a professional GPS receiver This description typically includes feature name s data type classification point line or polygon attribute names attribute types and attribute values After being created on a PC a data dictionary is transferred to a GPS datalogger and used when collecting data in the field Data Message A message included in the GPS signal which reports a satellite s location clock correction and health It includes information on other satellites health and their approximate positions Datum A mathematical model of the earth s surface World geodetic datums are typically defined by the size and shape of an ellipsoid and the relationship between the center of the ellipsoid and the center of the earth Because the earth is not a perfect ellipsoid any single datum will provide a better model in some locations than others Therefore various datums have been established to suit particular regions For example maps in the United States are often based on the North American datum of 1927 NAD 27 or 1983 NAD 83 All GPS coordinates are based on the WGS 84 datum surface 55 Datum Transformation A mathematical calculation that converts the coordinates of a position in one datum to coordinates in terms of another datum Two types of datu
69. ecsecesecosiecuseaseeon ccxseuesesweesedascensacanseceasecsteceaate 11 A s Recreational Ci AG Cs sscer exacts evsncesazsoncesasvacoe lt oettecacecsseauccouseabevaseesctsgosssaseoeteasooueasensevarcecusmecee eeit 11 Be PAPI Cal CS as g dace cessctenacatcaassendeevesecteseqetsausceceeseccassau sesostsussauececeacessanadiccasdoecesceeceaneetecsecestasee cease 11 C Survey or High Accuracy Grade cccccssssccsssscccsssssccssseccesssecessscecessecessssecsssseccesssesessees sense eee 11 D Categories of GPS Receivers Comparison Table ssscccssrcccssrsccssssescesseccsssrscssssccesseee e eoe 12 II CHOOSING THE RIGHT TOOL FOR THE JOB csscssseccccesssescsseccsssesessecessscessesescseesssseceseeeesenees 13 Poe WSC SION Te Oca essssbe cscs tec cade ceocs E E E 14 B Other Characteristics to CONSICET sccsssccccsscscscssscesssecesscccsssseccessecessssscesesseeessescense sense ees 15 Ped INUITIDE OT CMAN ACIS arisin a E EE E E 15 LATO ee E E EEA sacs 15 De ECS Vial PAU GNI Asees Ee EEEE E AE 16 4 FOPS POWO SOUCO ste cccusien seeps apescaesacastanconattesesnudossussoteceusetssuavcensaesersveventatnesseconsaneeetromseeeent 16 5 Data Dictionary Design eeeesseeeressoceesosoeessoeesssoeessoeeesooceesoceeeesoeessoooeeeeseeeesooeeseee ssoseseo 16 MEE E E E e A T EIE EAN E IE O O 17 IV DATA COLLECTION AND PROCESSING METHODOLOGY sseeessesseeessoeseeesseeessoesoeeseeesoeesee socessoeesoses 18 As M
70. ed be catalogued with the following information for archiving purposes gt hS General project information such as the contracting Agency the Contract Administrator a project name and a project identifier e g Agencies internal project number etc Type model and version number of hardware used to collect and store data GPS Reference Station used to correct field data include coordinates and validation information Details of post processing conversions used Software used in calculations and conversions and version number Any non standard data handling method technique or principle used 2 gt 2 2 2 Digital returns are to be submitted on the storage media and format as required by the Agency X TECHNOLOGICAL PERSONNEL CHANGE 1 If there are any significant changes in the Contractor s GPS system components i e hardware firmware software methodology etc or personnel during the period of the contract the Contractor should consult with the Contract Administrator A decision will be made as to whether the Contractor GPS System Validation the personnel qualification and or the GPS Reference Station Validation survey are required to be repeated 84 APPENDIX J SAMPLE GPS CONTRATOR REPORT 1 Company Agency Information Company Agency Contact 2 Field Operator Information Field Operator Name Company Agency Formal Credentials Experience 3 w Data Processor Infor
71. ements for occupation time vs fixes are still met In other words no one will contend more fixes acquired for a feature so long as the occupation time was adhered to 39 44 SECTION C CONTRACTOR SPECIFICATIONS To aid in contracting out GPS service requests I INTRODUCTION To aid individuals public non profit entities and private sector companies in contracting out or responding to GPS service requests the Specifications section with support from both the guidelines and accuracy standards can be used to form the technical section of a GPS survey contract Review of the Guidelines section is recommended prior to using the Specifications These specifications contain the rules that convey how the data accuracy standards can be met and facilitate the standardization of data collection procedures and quality control As previously mentioned the Guidelines provide general background information while the Accuracy Standards establish common target accuracy classes These specifications are presented as a resource for contracting agencies and Contractors alike to facilitate the collection and integration of high quality GPS data into a variety of data layers where targets for horizontal accuracy are between 5 20m and for vertical accuracy between 1 20m Reporting for these accuracies is at the 95 confidence level ll TERMINOLOGY The following definitions and abbreviations are used in this section Agency Agency Department Division
72. ence Proprietary or Merged if possible tation Data RINEX ee PEE Raw Field GPS Data Proprietary Unedited Original Corrected Proprietary or Unedited GPS Data ESRI Format Final Interpreted ESRI Format Edited GPS Data 83 As noted in the table above two digital and or hard copy data sets should be submitted One dataset must show all the GPS data collected after it has been corrected before there has been any cleaning i e filtering pruning averaging etc The second dataset must show the resulting GPS data that has been cleaned and is eventually used in the final survey plans plots The provision of these products will allow the Contract Administrator to do a visual Quality Assurance check on the GPS data 3 The Final Interpreted GPS data is to be provided in a digital format to be specified by the contracting Agency and a hard copy map plan may also be required Map hard copies are to conform to Agency cartographic standards The following map submission is provided as a suggested minimum o Map Surround which includes the following project information Project Title Project Number Identifier e g provincial government s ARCS amp ORCS identifier contracting Agency name Contractor name and date of survey Plan datum e g NAD83 and the Map Projection e g State Plane Long Island Plan scale e g 1 20 000 with BCGS map identifier Plan orientation e g north arrow annotati
73. er receiver A base station can be a permanent installation that collects base data for provision to multiple users or a GPS rover receiver that you temporarily locate on known coordinates for the duration of a specific project or datalogging session BlueTooth A wireless technology capable of using short range radio technology for Internet and mobile devices aimed at simplifying communications among them Some GPS receivers use Bluetooth to communicate with the datalogger Carrier Phase The difference between the carrier signal generated by the internal oscillator of a roving GPS receiver and the carrier signal emitted from a particular GPS satellite Coarse Acquisition C A Code A pseudorandom noise code PRN modulated onto a L1 signal which helps the GPS receiver to compute the distance from each satellite Specifically the difference between the pseudorandom number code generated by the GPS rover software and the pseudorandom number code coming in from the satellite is used to quickly compute the distance to a satellite and therefore calculate your position CORS Continuously Operating Reference Station A network of GPS base stations coordinated by the National Geodetic Survey for the purpose of providing GPS reference data to permit end users to perform post processed differential correction of GPS data collected with roving GPS receivers Reference data are typically acquired via direct download from the Internet Data Dictionary F
74. ers let you set a minimum elevation mask angle to ensure that the GPS receiver only tracks and uses satellites that are positioned a specified distance above the horizon Setting this value too low could allow the receiver to collect data from satellites not being tracked by the base station having an adverse impact on post processing efforts Also data from satellites that are low on the horizon are noisy due to increased atmospheric refraction The elevation mask setting is a minimum threshold it is very likely that local topography and obstacles blocking the horizon such as vegetation or buildings are likely to constrain the effective minimum elevation to something higher than the mask This Guideline recommends that you set the minimum elevation mask angle on your GPS receiver to 152 or greater 4 Data Collection Rate Sync Rate The number of readings you collect for a feature affects the accuracy of GPS data The user can specify the minimum number of position fixes and the interval at which fixes are stored based on your project s data accuracy requirements There is an obvious relationship between the number of points you collect and the rate at which you collect them A collection rate of one fix per second will yield 30 points in 30 seconds whereas it would take 150 seconds to record 30 points if the rate is one per five seconds In general the more readings you record the more accurate a feature s location will be
75. ested Maximum RTCM Correction Age Settings Another type of real time differential correction is the Wide Area Augmentation System WAAS developed by the Federal Aviation Administration to aid the avionic application of GPS Though many recreational grade receivers are now WAAS capable the signal is highly susceptible to blockage from topographic relief and vegetation and is not as accurate as post processing To avoid questioning if your data has been enhanced through the use of WAAS always post process your data for the best results See APPENDIX F WIDE AREA AUGMENTATION SYSTEM WAAS OVERVIEW for more information Three types of receivers are used to receive base station correction data external real time radio link receiver real time radio link receiver built into the GPS receiver direct satellite link built into the GPS receiver i e correction data are transmitted from the base Station up to a communications satellite and then back down to the receiver In order to help secure accurate results it is important that the base station transmitting the radio signals carrying the correction values be within 100 miles of the field data collection site A map of Nationwide Differential GPS NDGPS sites that broadcast corrections can be found at http www navcen uscg gov dgps coverage EastCoast htm Radio signals carrying correction data can be received from base stations more than 100 miles from the field data collection site but
76. et accuracy required by the project it is necessary to re observe a portion of the original positions calculate the NSSDA statistic and add the baseline error to produce the complete reporting accuracy The only CORS base station with a one second sampling interval on Long Island is located at MacArthur Airport ZNY1 and permits the best flexibility for field work in that it allows the GPS receiver to use any sampling interval setting as they are all divisible by 1 For those of you in Western Long Island and New York City the New Jersey Institute of Technology NJI2 may be a viable site The CORS stations in the rest of Long Island and surrounding states are desirable where baseline errors from ZNY1 and NJI2 are larger but these stations have a sampling interval of five seconds requiring field collection efforts to either use sampling intervals in multipliers of five e g 5 10 15 seconds etc or to contend with interpolated results when using a one second sampling interval Matching the GPS receiver sampling interval with that of the base station is the best way to maximize the advantage of post differential correction and avoid the correctional base station values from being interpolated in non multiplier increments As base stations do sometimes go down and lose periods of base data throwing off the best laid plans one option is to always use a one second sampling interval providing 1 your unit has ample memory and 2 any project requir
77. eteeweaucesvantacoaeesenteee 49 MU heGPSBASE STATION cevctseexccdecde sacsueix shaceses doles A EE EA E R E A 50 IX PROCESSINGAND QUALIFY CONTRO Lcsccevszaccsstessesaccctassastiavaeetbed cecasecsatsuscessetevatecoctelcsbaceten E NEEE 50 X PROJECT MANAGEMENT AND DELIVERABLEG ssccssccssssssssccessscecscssseceseccssseceessceeesscees ee eceeees 50 AS PTO ECE RODO oicirneiruns acon n ica cuuececeatanieecceslaceuaeaassseessaenesaqeeeicoieesteiastvesaesss 51 Be Hara CODY PANS easier ni a A E O T 51 C GPS Data and Processing Deliverable csssscccssssscsssssecesssecesssssccssscecesssecessssesesseeses ss esse 52 D Data OWNEr SMD surenin A E e T ET TEE TE 52 E OUa ASSUra Ne Oea E ake dssbedhuolaiosaveatauev auvsanieebiaaeents 52 F Data Management and Archiving seeessseeeseeseeeessoceessoeesoeeessoessoeeessoeeeoesessoessoreessoreeseressoseseoso 53 Ga DISTE AU MSG A ontana a a toes eae 293 Al TECHNOLOGICAL PERSONNEL CHANGE cressiserecosodinieeini rn ni EE R o e 293 AE MET ADATAAGUIDERIN ES wotesce este veszeccestccsceuceveteseuesvatodescctueucsacestneuces5 cauetisceecaeltcatdeueaSiceotaitiasieavead ouseseees 54 Appendix A Glossary OF Useful TEM anireo A OTEN 55 Appendix B Useful GPS and Related WeDSItEG cccssssscsssssesssssessssssecssssecsessecsessnsecssnscees sessseeees 63 Appendix C Map of New York State Plane ZOneS scccccsscscesscsccssseccessseecesseccsesscesesseeccsseees seesenees 6
78. evable under various conditions IV PRE QUALIFICATION AND VALIDATION 1 2 3 4 Total System It is required that any Contractor expecting to undertake GPS data collection be prepared to fulfill the requirements of the full System including GPS hardware and software for field and office field and GPS Reference Station receivers and reporting techniques All parts of the System are to be capable of meeting the contractual specifications below Field Operator Training It is required that Field Operator s have a demonstrated proficiency in GPS data collection methods or if the operator is in training be accompanied by an individual meeting this requirement Data Processor Project Manager Training It is required that Data Processor Project Manager s have demonstrated proficiency in the planning management and execution of GPS projects this includes the processing and management of GPS data It is required that any GPS System used be proven to meet the accuracy requirements through a GPS Contractor System Validation survey as outlined in Section C Content Specification IV For accuracy levels established during the validation and the conditions under which they were established it is recommended they apply for all subsequent projects 79 V PRE FILEDWORK PROCEDURES 1 It is recommended the Contract Administrator conduct a pre fieldwork conference for all potential and qualified contractors It is recommende
79. f three distinct segments the space segment the ground segment and the user segment The space segment known as the Navigation Satellite Timing And Ranging NAVSTAR constellation consists of the GPS satellites which transmit signals on two phase modulated frequencies L1 1575 42 MHz and L2 1227 60 MHz These transmissions are carefully controlled by highly stable atomic clocks inside the satellites The satellites also transmit a navigation message that contains among other things orbital data for computing the positions of all satellites The ground segment also called the control segment consists of a Master Control Station located near Colorado Springs Colorado and several monitoring stations located around the world The purpose of the control segment is to monitor satellite transmissions continuously to predict the satellite ephemeris to calibrate satellite clocks and to update the navigation message periodically The user segment simply stands for the total GPS user community The user will typically observe and record the transmissions of several satellites and will apply solution algorithms to obtain position velocity and time Two signals are broadcast continuously by each satellite one for use by the military and the other for civilian use The latter is referred to as Standard Positioning Service The basis of GPS technology is precise information about time and position To determine a horizontal location on earth signals
80. g Benchmarking should never be a substitute method for re observation to estimate the accuracy of a survey 3 Recommended Data Collection Methods The three main types of features in Geographic Information Systems GIS e g points lines arcs and polygons areas are all based on individual points or vertices The definition of a line or polygon feature is affected by the proximity of the points to each other under certain conditions Just how close the points should be is discussed in more detail below Most mapping resource grade receivers and their software are capable of capturing all of these features while recreational grade receivers are not GPS data can be collected in one of two ways first by remaining stationary over a point or while moving dynamically over a line or edge of a polygon feature These data collection methods are called static or dynamic modes respectively Points can be the result of a single positional fix or an average from many positional fixes each taken at intervals from one second the minimum to the highest setting allowed by the receiver a maximum of 30 seconds is practical The combined impact of the number of fixes and sampling interval on the accuracy of an averaged point is less pronounced for point features than for line or polygon features captured dynamically While capturing features dynamically is an efficient acceptable means of data capture it requires consideration of additio
81. g GPS data you must decide which method will best support your project needs and if your project resources are 24 adequate to support the selected technique The major differences between the post processing and real time are related to equipment cost and time sensitivity to accessing corrected data The extra equipment needed to attain real time can add to cost of a system but comes with the advantage of access to the corrected data in real time Generally speaking unless you have a specific need for the enhanced location accuracy provided by real time differential processing in the field it is easier and more economical to go the post processing route in Vermont The topography and dense vegetative cover in Vermont can adversely impact radio and direct satellite link signals The characteristics of post processing and real time differential processing are described in more detail below 1 Post Processing Differential Correction This type of differential correction occurs back in the office after you have downloaded raw GPS data from the receiver on to a computer Special software specific to the GPS receiver is used to apply correction values calculated from base station data to the rover data The ease of this process has steadily improved over the years and is not difficult to learn In most cases you can download free base station data from an Internet site operated by the National Geodetic Survey http www ngs noaa gov CORS For L
82. ge enough project the validation exercise could simultaneously provide an additional means of assessing a Contractors proposal However this approach should be considered carefully as it will add an extra component to proposal estimates and may put downward pressure on proposal submittals See Section C V Validation Surveys 46 V VALIDATION SURVEYS Due to the nature of GPS technology there is no easy way to detect outright blunders or to balance random errors homogenously throughout a survey A skilled operator can certainly stack the odds in their favor for reducing blunders and errors but short of tying each GPS point to a known benchmark through traditional survey methods there is no way to precisely assess accuracy While using tradition methods to survey each point would negate the cost and efficiency advantages of using GPS there is a middle ground solution that can be very useful in pre qualifying GPS Contractors if the project is big enough important enough and worth the extra costs incurred A sample Contractor GPS Contractor Report resides in Appendix J of this document to assist Contractors in complying with a validation survey if required The report contains the minimum information required but Contractors may provide additional analytical information if practical to do so on additional page s If a validation survey is not required for pre qualification by the Contracting Agency it is still required for the actual fieldwork and m
83. gon Features Polygon area features are essentially linear features that close e g connect at their endpoints These can be collected explicitly as polygons or as linear features that are later processed into polygons using CAD GIS software For simple features in open areas with good satellite reception it may be more straightforward to collect the features as polygons For more complicated or large features where reception may be an issue logging linear features can be more versatile logistically for two reasons A A single line segment representing the polygon can be saved midway along the traverse to capture other linear features in the vicinity and B Collecting multiple segments guards against losing the entire feature due to loss of signal lack of storage space or battery power In either case linear features are saved whereas a polygon feature will close between the original position and last available position Whichever approach is chosen it is highly recommended that one approach be adopted and followed for consistency throughout a project vi GPS Events An additional method for logging point features is the GPS Event Nested Point or quickmark Using the time stamp ingrained in every position fix the quickmark is interpolated from stored GPS fixes taken before and after the mark These are not substitutes for static point features because they are only based on individual fixes not averaged positions
84. her the same GPS receiver or one capable of higher accuracy if available and the same critical settings but collecting more individual fixes To maximize the independence of the re observed locations they should be taken at least one hour later than the originals and if possible conducted by a different individual For the sake of clarity the Contracting Agency should request a project report that contains either a table or spreadsheet detailing both the original and repeat measurements with a summary showing the percentage of re observed points that were within the relative accuracy test level To meet a relative accuracy target 95 of the re observed points must be within the square root of twice the relative accuracy target squared e g Example Relative accuracy target 5m Repeat Measurement Test Level 2x 57 7 1m QC Test 95 of the radial distances between separate averaged observations at the same point must be less than 7 1m to meet the relative accuracy target of 5m Radial distances measure the direct line distance between the original and re observed averaged points e g the mean location of the individual fixes acquired for each point For network survey s i e individual points that define a linear features like a road whole segments of the network should be re observed preferably run in the opposite direction from the original survey The two segments can be compared graphically and the separation meas
85. highway Each side of a divided highway is treated as a one way road If a divided highway is represented by a single centerline in the existing USGS DLG F data set SDR data collectors are required to GPS capture both lanes of the divided highway as dictated by Section A above 74 VIL FIGURE 7 divided highway with an even number of lanes collect using an offset Collection of Divided Highways Offsets An offset is a known distance set away from the antennae location of the GPS unit that is used to collect data in areas of difficult accessibility Offsets are either used at the time of data collection instant offset or prior to data collection constant offset Most often instant offsets will be applied to the collection of long sidewalk centerlines when using vehicular travel Also instant offsets will be used while collecting road centerlines Do not use offsets to capture trails as they are usually more accessible During road data collection use offsets to capture the true centerline for roads with an even number of lanes Do not use an offset on roads with an odd number of lanes as you will be able to drive the true centerline Figure 7 describes the correct way to collect centerlines on multi lane roads If it is necessary to apply an offset during the collection of long sidewalks using vehicular travel drive in the lane nearest the sidewalk and apply an offset distance and direction that most accurately captures the tr
86. i e obvious errors or outlier points to produce a smooth or generalized best fit line Visually comparing the best fit line with the original GPS position fixes onscreen provides an insight into data quality by allowing the differences between these individual fixes and the final line to be explicitly viewed Printing these data out at even a smaller scale for review is impractical due to the time and volume of paper it would require The easiest way to do this is to create a buffer equal to the relative target accuracy around the best fit line and view in concert with the raw data in a GIS 35 Fixes far from the final line are likely the result of poor satellite geometry forest canopy or multipath errors introduced into the data If only the minimum number of fixes were taken for each point and any show up as outliers the feature may need to be recaptured li Assessing Point Features Assessing the quality assurance of point features is also done primarily using visual techniques though it is entirely possible to automate the process by creating custom programs Creating a buffer on the post processed feature equal to the target accuracy can be used for comparison against the original position fixes 2 Quality Assurance Auditing and quality checking the work submitted by the Contractor is the single largest component to Quality Assurance QA Making sure the data received is accurate and complete before merging with exis
87. ily visible features The signed contract should detail the number location and nature of the tie points F Legal Boundaries GPS technology cannot be used to legally define parcel boundaries in New York unless the operator is a licensed land surveyor as defined by New York Statute This in no way precludes boundaries from being captured with a GPS receiver by anyone subject to permission by the land owner but the results simply can t be used in any legal proceedings unless they are certified G Required Survey Accuracies Target accuracies at the 95 confidence level for the project are Interpretative Horizontal Accuracy Interpretative Vertical Accuracy m Class m Class Refer to Section B 1 Table B 1 Relative Accuracy Classification Standards for determining the Class code to insert in the above The target accuracy is defined by having at least 95 of the individual position fixes within the above specified accuracies of the true position of the point For a GPS traverses done in dynamic linear mode at least 95 of the individual GPS position fixes must be within the specified accuracies from the line s true position Vil FIELDWORK A Critical Rover Settings The receiver will be set to only record observations using a minimum of four 4 satellites e g over determinate 3D mode The minimum satellite elevation angle mask for the field GPS receiver is 15 degrees above the horizon It is required
88. in Section B Accuracy Standards Relative target accuracies listed presume a mapping resource grade GPS receiver collecting data under good site conditions e g no obstructions and favorable critical values e g PDOP SNR small baseline error etc and where all data is post differentially corrected or acquired via real time correction Note This table is only a guideline and no field tests were conducted to determine these values Due to the large selection of mapping resource grade GPS receivers on the market it would be virtually impossible to assess them all Target Accuracy Data Collection Duration Number of Interval Fixes 5s 15 minutes 900s 10 minutes 600s 8 minutes 480s 5 minutes 300s 1 minute 60s 5 minutes 30s Table IV 2 Static Data Collection Suggested Duration and Number of Fixes ii Linear Features Dynamic Mode Line features are formed from a number of individual GPS position fixes and similar to point features they have a start and end time and associated attributes The two modes of collecting linear features are dynamic traverses and point to point traverses l British Columbia Standards Specifications and Guidelines for Resource Surveys Using GPS Technology pp D 35 29 Dynamic Traverses are analogous to stream mode digitizing of a line The Field Operator guides the antenna along the linear feature to be mapped while collecting GPS position fixes at a specified tim
89. ines for interpretation of special features In addition this meeting will provide a clear definition of deliverables services work quality payment schedule and other relevant contract issues to minimize confusion of the nature and quantity of work expected It is also important to establish the Quality Control and Assurance schedule at this point 47 B Auditing It is recommended the RFP clearly detail the Auditing process including the frequency and methods of the data field inspections as well as the use of independent GPS or other surveys to be used in assessing accuracy compliance with the contract C Field Inspection Subsequent to project award it is recommended the Contract Administrator conduct a field inspection with the Contractor to reiterate details regarding the nature and scope of work detailed in the contract D Reference Markers When physical reference markers are required to detail project specifics it is required that the interval and type of markers be stated in the contract making use of any pre existing Agency guidelines or requirements E Map Ties It is recommended that all projects include a sufficient number of map ties to allow for accurate geo positioning and reliability checks Map Ties should be readily visible from the air e g the Vermont Mapping Program s digital Orthophotography Good candidates include stream junctions road intersections baseball diamonds or other publicly accessible read
90. ing It is recommended all projects include sufficient map ties such as creek junctions road intersections or other features to enable accurate geo positioning and to provide reliability checks It is recommended the Agency representative specifies the number of tie points required and if possible specify where and what these tie points should be An official land survey may only be legally defined by a licensed land surveyor None qualified individuals attempting to present a survey as official can result in legal action being taken against the Contractor or the Agency if damages occur on adjacent lands The required survey accuracies i e target accuracies at 95 for the project are Network Horizontal Accuracy Class meter_ m Interpretative Horizontal Accuracy Class meter m Network Orthometric Height Class Accuracy m Interpretative Vertical Accuracy Class m For clarification the definition of meeting the above accuracy class is that for GPS point features at least 95 of the individual position fixes are within the above specified accuracies horizontal linear measure of the true position of the point according to the National Spatial Standards for Data Accuracy See Section B Accuracy Standards III B Determining the NSSDA Similarly for GPS traverses done in dynamic linear mode at least 95 of the individual GPS position fixes are within the specified accuracies horizontal measurements per
91. ion NAD27 North American Datum of 1927 based on the Clarke 1866 ellipsoid NAD83 North American Datum of 1983 based on the Geodetic Reference System 1980 GRS80 ellipsoid and as defined by the GRS in British Columbia NADV88 amp North American Vertical Datum of 1988 Static mode Collection of GPS data at a discrete point while remaining stationary Supplemental Supplemental Traverses are conventional traverses e g Compass and tape Traverse that are integrated with GPS surveys UTM Universal Transverse Mercator projection map projection system The statements in this document have been structured according to two levels of compliance required Used to describe tasks that are deemed necessary and are good practice Exceptions are possible but only after careful consideration by the contracting Agency recommended Used to describe tasks that are deemed desirable and good practice but are left to the discretion of the contracting Agency Ill GOALS 1 2 3 To establish realistic reasonable levels of accuracy by task assignment and to classify the surveys to be performed by end specifications aimed at achieving target accuracies To provide a capacity for integrating requirements across Vermont and to standardize those requirements where common standards are applicable To qualify GPS Systems i e equipment processing methods and personnel by a Contractor GPS System Validation survey to establish the accuracies achi
92. isabled when an external antenna is used so that signals are not received from both antennas External antennas generally increase the amount of signal gain and the ability to operate in demanding environments e g tree canopy or narrow river valleys at a minor cost of additional battery drain Mounting an antenna on a pole mount raises the antenna above obstructions and limits multipath signal degradation from reflected signals The ground plane is established at the antenna height An external antenna mounted on a vehicle should be mounted on a metal surface to establish a ground plane rather than on a plastic or fiberglass camper shell to limit multipath It is important to properly secure the external antenna s cable to the GPS receivers the connection cannot become dislodged by an obstruction or when walking through brush An external antenna is recommended when collecting data in wooded or urban areas where the sky is partially obscured and when acquiring data with a vehicle m gt GPS Power Source Battery capacity charging systems and battery replacement should be considered GPS receivers run on electricity so it is important to have a good battery supply available in the field Important parameters include the ability to work in a range of temperatures all day working capacity and rapidly rechargeable The ability to utilize a 12v adaptor of a vehicle socket will provide an endless power when conducting mobile GPS work Ther
93. llection pathway A significant obstruction may require enough of a deviant movement to avoid the obstacle so as to cause an inaccurate data capture of the road Hitting the pause button avoiding the obstacle and then resuming collection can avoid this The Pause feature is best used on straight a ways Pausing GPS collection simply suspends data capture until an obstruction is passed If several turns are made during the pause in data collection the GPS unit will simply connect the dots from the point of last collection to the point at which the GPS unit 1s resumed Figure 5 shows examples of how to correctly apply the Pause function If contingent situations arise and data collection must be temporarily suspended the Pause function allows data collectors to take a break that can be resumed at a later time Be careful to remember the general location where the pause function was executed Forgetting the location of a pause may cause undesirable collection results if you incorrectly start collection in a different location FIGURE 5 resume data collection obstruction in path pause data collection B Pause Collection Resume Collection Use the Pause Feature to Pass an Obstruction V Loss of Signal Use the distinctive audible capabilities of the GPS data logger to ascertain when signal is lost and regained In areas of high multi pathing dense tree canopy mountainous areas urban areas etc signal may be lost frequently
94. llow the user to set data collection to be either two dimensional 2 D or three dimensional 3 D and correspondingly how many satellites are required 2 D positions need three satellites and 3 D positions need at least four 3 D positions are more reliably accurate than 2 D ones and it is recommended that only 3 D positions be collected Occasionally difficult site locations and conditions may limit satellite availability and force a 2 D position When the rover files are exported from the desktop GPS software it is highly recommended that the option to export the position type attribute be enabled to allow for ready identification of 2 D or 3 D positions or alternatively only 3 D corrected positions should be accepted e Digital Imagery Comparison An alternative to re observing points when accuracy validation isn t a project requirement is the use of the New York State Digital Orthophotography Program By planning ahead and capturing field points that are readily identifiable on the orthos e g road intersections distinct driveways etc it is possible to compare the field point onscreen with the imagery to gain a general sense of the field data accuracy without re observation Although the orthos are quite accurate 1 5000 source scale remember that accuracy is a relative term and that the imagery you re using as a frame of reference to compare field points does contain a certain amount of error According to the U S Natio
95. lume of data produced in a GPS project is critical for ensuring its future usability especially when a majority of the data represents raw intermediary or supporting data It is recommended that the 50 Contracting Agency require all raw intermediary or supporting digital data be retained by the Contractor and included on digital media in the deliverables This section details deliverable specifics present in the GPS contract including content file format and media It also describes requirements for managing and archiving data In the absence of special requirements by the Contracting Agency these guidelines should be followed as closely as possible A PROJECT REPORT The elements of the recommended project report are identical to those detailed in the GPS Contractor Validation Report created during the pre qualification survey If a validation survey was not required by the Contracting Agency the Contractor may still prefer to use the SAMPLE GPS CONTRACTOR REPORT located in Appendix J to fulfill these report requirements It is recommended that the Contractor submit a project report including the following information gt A brief description of the project work i e purpose target accuracy location etc A brief description of the Contract particulars including the Contracting Agency that commissioned the work the Contract Coordinator a project name if available and a project identifier A listing of all personnel
96. m transformations are supported by most professional grade GPS data collection and management software three parameter and seven parameter A datum transformation is used when the GPS results are required in terms of a local datum Declination See magnetic declination Differential Correction The process of correcting GPS data collected on a rover with data collected simultaneously at a base station Because it is on a known location any errors in data collected at the base station can be measured and the necessary corrections applied to the rover data Differential correction can be done in real time or after the data has been collected by post processing Dilution of Precision DOP An indicator of the quality of a GPS position which takes account of each satellite s location relative to the other satellites in the constellation and their geometry in relation to the GPS receiver A low DOP value indicates a higher probability of accuracy Standard DOPs for GPS applications are PDOP Position three coordinates HDOP Horizontal two horizontal coordinates VDOP Vertical height only TDOP Time clock offset only Dual frequency GPS Receiver A type of GPS receiver that uses both L1 and L2 signals from GPS satellites A dual frequency GPS receiver can compute more precise position fixes over longer distances and under more adverse conditions by compensating for ionospheric delays Earth Centered Earth Fixed ECEF A C
97. mation Data Processor s Name Company Agency Formal Credentials Experience 4 eee Field GPS Receiver Information FIELD GPS RECEIVER GENERAL INFORMATION GPS Manufacturer Model GPS Mobile Software FIELD GPS RECEIVER DATA COLLECTION SETTINGS Data Rate Used Data Format Satellite Elevation Mask ____ Degrees PDOP Mask ___ __ Minimum Number of SVs SNR Mask ___ __ 5 GPS Base Station Used GPS Base Station Used 6 Deliverables GPS CONTRACTOR REPORT DATA 1 Uncorrected Data 2 SSF File 3 Corrected Data Shapefile or Geodatabase in NAD83 State Plane New York Long Island FIPS 3104 feet 85 APPENDIX K FIELD EQUIPMENT LIST GPS Equipment __ GPS Datalogger __ Real Time GeoBeacon __ Integrated GPS Antenna __ Antenna Cable ___ TSCI Data Cable __ Vehicle Magnet __ Dual Battery Cable __ Backpack __ Data Power Cable __ GPS Carrying Case __ _NMEA RTCM Cable __ Range Pole Safety Equipment ___ Safety Vest and Hats __ Cellular Phone __ Rotating Safety Light __ Tire Chains __ Rear Safety Sign __ First Aid Kit __ Road Flare __ Sunglasses Miscellaneous Items __ Pencils standard and colored Calculator __ Pens __ Extra Clothing __ Compass Food __ Field book __ Water __ Highlighters __ Bug Spray __ Tape Measure __ Sun block __ Road Maps __ Tripod __ Topographic Maps __ Property Access Papers __ Paper Clips __ Purpose of Project letter __ Clipboard __ 2 Way Radi
98. mation VT GPS Guidelines 20 Dec 2006 lt http www vcgi org techres standards partii_section_l doc gt 13 A Decision Tree The decision tree is intended to help users select an appropriate GPS receiver grade particular to their GPS data collection project This is only a general guide however and you must also consider several other factors as noted above before making your final choice 1 Project requires data with better START Project has determined data YES than 8 inch horizontal accuracy YES HERE relative accuracy requirements and 2 foot vertical accuracy NO Survey Grade GPS Assess data accuracy Project requires collection of point line or area feature data with better than 10 meter accuracy needs Project intends to load use a customized GPS data dictionary during data collection Mapping Resource Grade GPS with Post processing Project to collect and store more than 1 000 points before downloading data NO Project requires real time differential correction YES capabilities Recreational Grade GPS Mapping Resource Grade GPS with Real time 0 lt WT DNR Comparing GPS Tools lt http www dnr state wi us maps gis gps html gt 14 B Other Characteristics to Consider In addition to the ability to set defaults and differentially correct data using a specific GPS receiver users should also consider the following additional receiver characte
99. mph is a practical upper limit During dynamic linear positioning the data recording rate should be set according to the fix Spacing desired which is related to the vehicle speed For example if a road is to be surveyed at 10m fix spacing and the vehicle speed is 35 km hr 20 mph then the data collector must be capable of recording one fix per second Note that some GPS systems claims a one second recording rate but can only sustain this when tracking less than 5 satellites The following table shows examples of various fix spacing for different traveling speeds and recording rates Example Modes Speed Data Collection Rate s Of Transportation m s And corresponding Point Separation m Walking 1 4m s Skm h or 3mph 1 0s separation 1 4m 5 0s separation 7 0m Bike 1 0s separation 4 1m 5 0s separation 21m Vehicle slow 1 0s separation 8 3m l 5 0s separation 42m Vehicle fast 17m s 60km h or 35mph 1 0s separation 17m 5 0s separation 84m Table IV 3 Dynamic Traversing Speed amp Data Rate vs Point Separation iii Linear Features Point to Point Mode Point to Point Traverses entail capturing individual points i e a traverse point that collectively defines linear features No fixes are logged between points and once averaged the points are converted into a linear feature by either the GPS desktop or CAD GIS software The I8 British Columbia Standards Specifications a
100. nal factors in order to maintain the desired accuracy This section defines data collection methods and suggested field methods and GPS receiver settings to achieve target accuracies i Static Point Features Static point features are normally surveyed by grouping a number of individual position fixes to produce an averaged single position Examples of static point features are a project location culvert bridge cabin etc A static point feature has a start and an end time and usually includes attributes describing the feature The post processing software will average all individual position fixes to compute a single position for the feature and attach any attributes for export to a GIS or mapping system The largest errors in Differential GPS DGPS positions are usually due to multipath and signal attenuation caused by nearby objects such as foliage reflecting surfaces etc While the antenna is moving these errors tend to be random more or less but significant systematic errors can occur at a stationary antenna Multipath on L1 pseudoranges occurs in cycles of 6 10 minutes theoretically If the antenna is kept over a point for a full multipath cycle the errors 28 should average out and accuracies of a few meters may be attainable under forest canopy However requiring a 10 minute occupation time at point features may not be practical or necessary if the project s accuracy target is lower It is important that enough data is
101. nal Map Accuracy Standards the horizontal accuracy for 90 of points at the 1 5000 scale is approx 2 5m 8ft Due to the unpredictable nature of accuracy this means that a point lining up perfectly with the corresponding point on the image can still be off by the error of the source imagery i e 2 5m http www oh nrcs usda gov technical gis natl_map_accuracy html 27 e Re Observation The best method of assessing the accuracy of a GPS survey is by re observing a portion of the original positions using the same receiver and settings This topic is fully discussed in Section B II1 A Re Observation Re observing points is a good way to verify that your collection effort is on the right track however it is only absolutely necessary if you are trying to prove your data meets a certain accuracy e Use of other ancillary data parcels benchmarks streets etc e Benchmarking to Established Monuments A benchmark is an established and documented field location with known coordinates One can occupy a benchmark collect GPS data and compare the collected position to the published position However the accuracy noted for one GPS point against a benchmark regardless of a benchmarks coordinate accuracy does not apply to other points in a typical GPS data collection survey Instead the utility of this comparison may be limited to simply ensuring the receiver s critical settings have proper values and that it isn t malfunctionin
102. nd Guidelines for Resource Surveys Using GPS Technology pp D 36 British Columbia Standards Specifications and Guidelines for Resource Surveys Using GPS Technology pp D 41 30 operator should acquire an overview of the features to be captured in order to log key inflection points in the features Point to point traverse may not be more accurate than dynamic traverses under forest canopy but are more practical under certain circumstances Practicality may prevent a dynamic traverse e g a river or other impassible topographic features and the accuracy target may render delineation of minute details unnecessary Another advantage is the ability to use offsets when logging these points to overcome obstacles or improve satellite reception e g reducing multipath interference from forest canopy when delineating a tree stand Offsets are described below iv Linear Features Hybrid mode Individual nestled point features can be recorded while a separate feature is being logged by a dynamic traverse e g a spring or cabin along a trail This is extremely useful in improving the efficiency of the capture effort where multiple features can be captured in a single effort but when the point feature has an accurate location or may be readily identifiable on a digital Orthophotography This can provide an additional QC checkpoint for the linear feature especially in situations where forest canopy may be affecting the target accuracies v Poly
103. ng True North Magnetic North and Grid North Geographic e g latitude longitude and or Mapping Projection e g VCS graticule as requested Source of any non project information i e TRIM backdrop Forest Cover data etc O O OOO Final data i e Original Corrected GPS data and Final Interpreted GPS Data is to be reduced and presented referenced to the NAD83 datum If the Contract Agency requires data to be provided on the NAD27 datum then it is required it be a copy of the data If the Agency requires any other local datum the methods used to transform the data are to be explicitly described in the project report and approved by the Agency If orthometric elevations i e Mean Sea Level are required for submission vertical data is to be referenced to the NAVD88 using the standard geoid model for the United States with local geoid modeling if required i e for high vertical accuracy projects The data files created by this project are the property of the contracting Agency and access to all files created in the completion of the works is required to be made available to the Contract Administrator or designate It is recommended the Agency forward a copy of none sensitive data to the Vermont Center for Geographic Information for distribution to the GIS user community In addition the Agency should be responsible for storage or destruction of the data files in accordance with government standards It is recommended the data provid
104. nload these data for further processing or analysis Therefore memory requirements of recreational grade receivers are of less concern You must however consider how the field conditions of your project may influence the memory requirements of your mapping resource GPS receiver Larger data sets require more memory Remote field locations may require larger files to be collected between downloading opportunities Attribute data requirements may take up considerable storage space Needs for higher accuracy usually means more data needs to be collected increasing storage needs Many GPS units have memory slots to expand onboard memory How many features will be located More features may require more memory to minimize the number of data downloads you need to perform How large are the line or area features to be located Long linear features e g trails or polygon features with very large areas e g forest stand boundaries may require more memory to store all collected data In addition a GPS receiver that lets you open and append data to existing files will minimize the number of total files you need to create and compile for one feature How remote are the features to be located Remote features may require more memory in order to minimize the number of trips made to the field to capture them Without adequate memory the only alternative is to return to the office numerous time to download data or bring a laptop into the field for dow
105. nloading Will a customized data dictionary be loaded on the receiver The use of data dictionaries is highly recommended unless using ArcPad and they take up memory 15 What are your data accuracy requirements More memory may be needed to capture and store the larger volume of data needed to support higher data accuracy requirements This Guideline recommends that your mapping resource grade GPS receiver have a minimum 2Mb of memory This amount of memory should allow for the loading of a custom data dictionary and the ability to collect data for 8 hours while using a one second sampling interval in all but the most demanding situations Additional memory is an option with most receivers 3 External Antenna GPS satellite signals can be received from any direction For best results the antenna must have a clear view of the sky Satellite signals do not penetrate metal surfaces buildings tree trunks or similar objects In addition signals are weakened when they penetrate tree canopies glass or plastic GPS receivers have an internal antenna that is sufficient for general use in clear sky areas away from buildings Most resource mapping grade receivers also have the option of an external antenna An external antenna is very useful in situations where the internal antenna may be blocked by the user an obstruction or where a stable platform is desired These are also useful mounted on top of a vehicle The internal antenna is d
106. ntractor to ensure accuracy and completeness of the final products Quality Assurance QA procedures are the responsibility of the Contracting Agency to ensure the final products are properly integrated into their existing map databases The QA procedures may be detailed in a contract but are primarily intended for the Agency s benefit It is recommended that Audit procedures be outlined in the contract to inform the Contractor how the delivered data will be assessed The following sections are intended to provide an overview of QA concepts and auditing data submitted by the Contractor and are highly recommended for use by the Agency to ensure data integrity and accurate integration of the data into existing database When data sets of extreme value or sensitivity e g emergency services are involved these QA procedures may not be detailed enough and further research should be conducted Note that only relative accuracy is covered by these guidelines See Section B Accuracy Standards 1 Quality Assurance amp Accuracy Requirements The process of Quality Assurance QA entails integrating data acquired from the Contractor into existing database and ensuring that they are complete correct and meet the target accuracies detailed in the contract Failing to implement QA processes can create doubt as to data integrity and may make users justifiably reluctant to invest large amounts of time and energy based on unknown source data While it has alwa
107. nvolved in this project detailing their particular duties and background i e their educational background formal GPS training details courses with dates their experience on similar projects etc this could be a copy of what was provided with the pre qualification package A list of all hardware and software used on the project including but not limited to o GPS hardware i e receiver model antenna data logger firmware versions etc o GPS software i e name version number settings etc o Mapping software i e name version number settings etc o Utility software i e name version number settings etc Detail regarding the GPS Reference Station used i e private local and or government validation status etc A summary of the project including planning field data collection methods and parameters i e GPS receiver settings defaults data processing methods and parameters i e post processing settings defaults any project problems anomalies deviations etc An explanation of deliverables digital and hard copy including data formats naming conventions compression utilities used media etc A copy of all field notes digital or hard copy A list of all features that have been mapped or surveyed It is recommended the Contractor submit the following digital deliverables in the indicated format and datum see APPENDIX D DIGITAL MAPPING and GIS INTEGRATION for details Deliverables GPS Refer
108. on firm or individual that provides works or services to the Agency under terms and conditions of a contract Contract Agency representative who has authority for issuing and managing the contract Administrator and for receiving the items or services delivered by the Contractor Data Processor A trained employee of the Contractor who performs the calculations to convert raw field GPS data into processed maps databases using DGPS procedures and QC checking editing DGPS Differential GPS i e pseudorange code positioning differentially corrected either post mission or real time Dynamic mode Collection of GPS data while traveling along a linear feature to be surveyed e g a road or watercourse Field Operator An employee of the Contractor who performs the field portion of the data collection Geoid The equipotential surface approximating Mean Sea Level Consult GDBC for provincial standard geoid model GPS Global Positioning System as operated by the United States Department of Defense US DoD Also called NAVSTAR GPS Event A GPS Event is a single position instead of a group of positions averaged to a single position i e Static survey Events are typically used when the antenna cannot or need not be stationary over a point GPS Reference A GPS receiver located at a known location collecting data continuously to be 78 Station used for correcting field data either in real time or post mission Also known as a basestat
109. onding receiver setting allowing the user to pick different modes of data collection e g walking driving flying etc while other provide no such controls to the user Filters and their settings used should be noted in the project report when applicable Filtering works by assessing points that surround the point being re computed e g previous and subsequently logged points Points that are too far apart for the time elapsed to have been acquired by a pedestrian remember everything is time stamped in GPS can be identified as incorrect i e an outlier and deleted Data Editing Smoothing and Generalizing Post differentially corrected or real time differential data is considered to be original corrected GPS data and should be retained in the project archive previous to any edits to provide an opportunity to review the level of noise in the GPS traverse as well as any major errors In cases where critical parameters are changed or special processing controls applied in either post processing efforts or part way through a survey avoid this whenever possible to produce originally corrected data e g a different elevation mask or outlier deletion criteria they should be noted in the project report Most point linear and polygon features are edited or generalized in some way to remove apparent errors from individual points caused by a poor acquisition environment or user error Editing individual points collected as either st
110. ong Island there are a number of base stations to choose from Please refer to Appendix D and E for a map and list of available sites A list of community base stations jis available on Trimble s website http www trimble com trs findtrs asp You can also set up a temporary base station for a specific project but this requires additional effort and may involve security issues if the receiver is to be unattended in a remote location To ensure the best accuracy possible for field data ensure that your collection rate e g 1 fix per second is a factor of the sampling rate of the available base station data For example if the closest base station has a 5 second sampling rate do not set your collection rate to 2 or 3 seconds rather set it to 1 5 10 15 or 30 seconds etc Most base stations do not store one second interval data for more than a month so do not wait to acquire this data after a field collection effort GPS equipment with post processing functionality is generally less expensive than systems with real time functionality because less hardware is required i e there is no need for a real time beacon receiver However today s resource grade receivers often come with both capabilities and this is becoming the standard receiver configuration 2 Real time Differential Correction Some recreational and mapping resource grade GPS receivers have real time differential correction functionality also known as Differential GPS or
111. os 86 APPENDIX L EVALUATING GPS PROFESSIONALS 6 i ITEMS TO BE CONSIDERED IN EVALUATING GPS PROFESSIONALS Responsiveness to the specifications and the contractor s proposed plan of performance The plan of performance should include a schedule for accomplishing the work including the time required for each phase Experience Request a client list Review one or two of the most recent projects by examining the work and discussing the client s satisfaction with the mapping contractor s work Equipment and production facilities Request a written statement of how maps are prepared Ask fora listing and description of equipment to be used on the project Personnel Ask for a listing of full time employees of the firm available to work on the specified project and brief resumes of key mapping personnel The caliber of workforce can be an important factor in a firm s ability to produce acceptable products Financial status Request a current financial statement Check the statement and the contractor s credit rating Bonding Bonding should be required for the bid price and 100 percent performance Support programs Technical assistance and questions regarding the delivered data should be provided 8 Cost Cost should be measured in relation to the service to be provided 87
112. otential surface of the Earth s gravity field which best fits in a least squares sense global mean sea level Ne h H N D oY Ellipsoid LELCETTTET Geoid Po h Ellipsoid Height Distance along ellipsoid normal Q to P N Geoid Height Distance along ellipsoid normal Q to R H Orthometric Height Distance along Plumb line P to P Image Source National Geodetic Survey Global Positioning System GPS The generic term used to describe the satellite based timing and positioning system operated by the United States Department of Defense DoD Grid North The meridian of any particular grid that is referenced to true north Height Above Ellipsoid HAE Distance h above the reference ellipsoid HAE is always measured orthogonal to the ellipsoidal surface Three dimensional GPS positions reference HAE Recreational grade GPS receivers calculate approximate orthometric height elevation for the user 57 Image Source National Geodetic Survey Horizon The line at which the earth and sky seem to meet for any particular observer Horizontal Dilution of Precision HDOP See DOP L1 The primary L band carrier used by GPS satellites to transmit satellite data The frequency is 1575 42 MHz It is modulated by C A code P code and a 50 bit second navigation message L2 The secondary L band carrier used by GPS satellites to transmit satellite data The frequency is 1227 6 MHz It is modulated by P cod
113. ource mapping grade receivers and having target accuracy requirements from 1m to 20m horizontal accuracy classes at 95 confidence and the 5m to 20m vertical accuracy classes at 95 confidence The actual target accuracies required for the project or application are to be entered below The Content Specifications are supported by two documents the Accuracy Standards and the Guidelines A Accuracy Standards Document outlining target accuracy categories in a standardized and uniform manner Using the Content Specifications document one may specify the target accuracies to be achieved based on the Standardized categories established within the Accuracy Standards document B Guidelines The Guidelines support document provides relevant background information in order to complete those areas of the Content Specifications that vary project by project This Specification document when completed using the Guidelines will form the technical section of a GPS survey contract ll INTERPRETATION These Content Specifications may be interpreted with the help of the accompanying Guidelines document In order to interpret the Content Specifications correctly the reader must have prior familiarity with GPS operations The Guidelines are intended to assist users in this regard In this document the following definitions and abbreviations shall be used Agency Agency Department Section or other entity administering the Contract Contractor Corporati
114. pendicular to this line from the true position of this line VI FIELDWORK 1 The field GPS receiver is to be set to position or record observations with a minimum of four 4 satellites without constraining fixing the height solution sometimes known as 3D positioning mode 80 2 The minimum satellite elevation angle mask for the field GPS receiver is 15 degrees above the horizon 3 It is required that the DOP not exceed the following values DOP Figure Maximum DOP Value Geometrical DOP GDOP Positional DOP PDOP Horizontal DOP HDOP Vertical DOP VDOP Not all DOP values are required to be completed VDOP limits need be followed only in surveys where accurate elevations are required 4 During Static point mode surveys occupations will adhere to the minimum values below or the values used during the Validation survey which ever is higher Point Significance Minimum Minimum Number of Fixes Occupation Time sec Standard 30 seconds 30 fixes Significance Point _ High Significance 250 seconds 50 fixes Point 5 It is required that position fixes for linear features mapped statically i e static or point to point traverses be no more than______ meters apart with the traverse points defined as Standard Significance Points 6 It is required that position fixes for linear features mapped dynamically i e dynamic traverse be no more than___ _ meters apart 7 Itis required that dynamic traver
115. project information into an existing data retrieval system of consider devising one that at a minimum affords quick access to basic project information e g project name Contracting Agency Contractor map reference file names formats significant dates physical storage location etc The Contracting Agency will be responsible for transferring the data to archive quality media XI TECHNOLOGICAL PERSONNEL CHANGE s If significant changes occur to the Contractor s GPS system components i e hardware firmware software methodology etc or personnel during an active contract it is recommended the Contractor consult with the Contract Administrator A decision will be made as to whether the Contractor GPS System Validation and or personnel qualification be reevaluated It is required that the Contractor and the Contract Administrator ensures that the most current versions of the GPS Data Collection Guidelines for Suffolk County NY are used 53 XII METATADATA GUIDELINES Simply defined metadata is data about data or information that describes the characteristics of a GIS data set In describing a GIS data set metadata usually provides information about its content and origins it may also be used to track the updates corrections or changes to a data set In addition metadata should also contain distribution information which explains how a potential user can acquire the data set Metadata created and updated according
116. pseudo ranges cannot be effectively averaged over periods shorter than a few hours Differential corrections must be updated at a rate less than the correlation time of SA and other bias errors Signal to Noise Ratio SNR The signal strength of a satellite is a measure of the information content of the signal relative to the signal s noise The typical SNR of a satellite at 30 elevation is between 47 and 50 dBHz The quality of a GPS position is degraded if the SNR of one or more satellites in the constellation falls below 39 This value is used to determine whether the signal strength of a satellite is sufficient for that satellite to be used by the GPS receiver If a satellite s SNR is below the configured minimum SNR that satellite is not used to compute positions SV Satellite Vehicle or Space Vehicle referring to the actual GPS satellite Time Dilution of Precision TDOP See DOP Time on Station The amount of time needed to be at a location in order to accurately collect an X Y value per the project requirements Global Positioning System Overview 20 Dec 2006 lt http www colorado edu geography gcraft notes gps gps html SA gt 61 True North A term used to define 1 an astronomic meridian 2 a geodetic meridian 3 the direction of north from magnetic north corrected for declination 4 the meridional direction assumed in a survey description 5 the cardinal directions run in the Public Land Survey
117. r to and while collecting data with a GPS receiver It should be noted that not all of these options are applicable to all recreational grade GPS receivers A Mission Planning For the purpose of this document Mission Planning is a broad overview of planning a project to establish what the purpose is what the data will be used for and who will be using them All these factors will help determine the proper equipment and methods to be used 1 Satellite Availability amp Known Outages Before collecting data the user should be aware of the theoretical satellite availability Most GPS software has the ability to provide a theoretical estimate of satellite availability at a certain geographic location on a certain day at a specific point in time This information is often displayed in a variety of methods including graphs charts and diagrams and skyplots which display the satellite constellation over a location The United States Coast Guard maintains a website that generates a digest of known or forecasted GPS satellite outages This digest is called the Notice Advisory to NAVSTAR Users NANU and lists the times when specific GPS satellites will be unstable or not available for use This information can be used in the mission planning utility when considering which satellites will be available on a specific day For information about how to subscribe to the NANU email list visit the following webpage http www navcen uscg gov gps gps_new
118. re compared against independent control coordinates Essentially random points are selected from the field data and compared against an independent data set The horizontal coordinates or vertical values for each set of points are subtracted from the independent points with the results yielding a consistent reporting value the National Standard for Spatial Data Accuracy NSSDA statistic While this Statistic has a supporting national standard behind it and represents a credible consistent approach to the issue of relative accuracy it is important to understand its limitations The reported relative accuracy values is subject to the dynamic nature of GPS error that preclude the accuracy associated with a single point to be fully representative of other points in the same survey This is especially true under forest canopy or areas of high topographic relief and less true in open areas of gentle terrain Ultimately the effort of re observing positions only provides an indication of accuracy for the entire survey This approach is detailed in a set of standards created by the Federal Geographic Data Committee FGDC http www fgdc gov fgdc fgdc html in part three of the five part Geospatial Positioning Accuracy Standards titled the National Spatial Standards for Data Accuracy NSSDA http www fgdc gov standards status sub1_3 html The NSSDA is a reporting standard that describes the usability of data in terms of quality and accuracy using a consi
119. re project i e magnetic or true north For projects covering large geographical areas multiple magnetic declination values may be required The value s used should be documented All azimuth measurements should be made relative to the GPS antenna British Columbia Standards Specifications and Guidelines for Resource Surveys Using GPS Technology pp D 39 32 e Measuring the azimuth value from both the offset location and from the actual feature location helps to improve the accuracy of the value e The accuracy of distance measurements directly affects an offsets overall accuracy Distances measured on an incline must be adjusted from slope to horizontal distance For receivers that accept an inclination angle the horizontal distance is automatically calculated se All compasses are affected by natural and man made attractions so all efforts should be made to prevent these sources of magnetic distortion from influencing azimuth readings The magnetic declination value used in the survey should be present in the project report along with methods employed to measure distance direction and inclination Before offset coordinates are calculated the magnetic declination value must be applied Setting the declination in the field compass allows a direct reading of true azimuth but it is also possible to apply the declination to magnetic azimuth values after the fact The best source of magnetic declination in the United States is the
120. recision e g the root mean square RMS or Standard Deviation 1 sigma methods these values may be unreliable means of accuracy When a location is averaged from individual fixes over a short period i e 30 seconds the same troposphere effects and other sources of systematic error can affect all of them and impact the precision values Alternatives to relying on these single value point measures include comparing a GPS position to a known benchmark or re observing points at a later date when sources of systematic errors are bound to be different While it is possible to compare a GPS position with a known benchmark to derive an accuracy measurement that measurement does not hold true for all points taken with the receiver at all times and under all conditions It only holds true for that individual point at the time it was taken and not for any subsequent point s acquired e g taken five minutes later in a narrow river valley with a northerly aspect and under canopy Factors affecting the accuracy of a GPS position e g satellite geometry troposphere effects weather topography etc are constantly changing and short of using traditional surveying methods to survey each point using reference benchmarks there is no way to derive the true accuracy for the entire field effort A more realistic way to estimate the horizontal and or vertical accuracy attainable by an individual GPS receiver is to employ a validation procedure where test results a
121. ristics before choosing a GPS receiver for your project Nearly every new receiver surpasses the minimum configuration requirements noted below for their class and this trend is likely to continue in the future While survey mapping resource and recreational grade receivers share many of these characteristics our suggestions pertain to mapping resource grade receivers 1 Number Of Channels GPS receivers track the signals from satellites via channels with the signals from one satellite occupying one channel on the receiver A 3 channel GPS receiver tracks the signals from up to three satellites at one time while a 12 channel receiver tracks the signals from up to twelve satellites at one time The more channels a receiver has the more likely that it will continue uninterrupted collection of data if the parameters e g PDOP of one of the satellites fall out of optimal range A GPS receiver with twelve channels has a greater ability to track the best while continuing to seek out other satellites with more optimal parameters Therefore this Guideline recommends that GPS receivers have the ability to track 12 channels 2 Memory The number of data points that a GPS receiver can collect and store before you need to download the data to a computer differs greatly between recreational and mapping resource systems Recreational grade receivers can only collect and store data for less than 1 000 points and users do not usually dow
122. s_090905 htm 2 Position Dilution of Precision PDOP The user should plan their data collection at times when there is optimum satellite availability four or more and when the satellites are in an appropriate configuration to produce an acceptable lower PDOP value Data collection can be planned to exclude poor higher PDOP times PDOP values should be reviewed daily as satellite geometry changes constantly Most GPS desktop software has the capability of providing graphics indicating the number of satellites available over the course of a day at a specific location as well as the PDOP values 3 Local Obstructions of the Sky The user should consider performing field reconnaissance in advance of data collection to identify local obstructions of the sky including urban canyon forest canopy etc that can affect results B GPS Receiver Configuration It is recommended that the following values be set on the GPS receiver prior to field data collection These values are subject to the accuracy requirements of specific projects The values below may be modified depending on GPS receiver model Additionally the user should consult the manufacturers guidelines for optimal GPS receiver configuration recommendations 1 Position Dilution of Precision PDOP Most GPS receivers allow you to set a maximum acceptable Position Dilution of Precision PDOP The PDOP is a statistical indicator of the geometry among the satellites being observed i
123. ses begin and end on a physically marked static High Significance point commonly referred to as the Point of Commencement PoC and the Point of Termination PoT 8 All significant deflections required to delineate linear features at the required accuracy are to be mapped This includes significant vertical breaks if elevations are required 9 Times of GPS Events i e interpolated points on dynamic traverses should be accurate to at least ____ seconds 10 It is required that for point offsets the following specifications be observed The Field Operator is to record the following information slope distance vertical angle and magnetic or true azimuth from the GPS antenna to the feature Magnetic Declination is to be applied to all compass observations before computing offset coordinates The maximum distances for point offsets are ____ meters and_____ meters if offset observations are measured forward and backwards Bearings are to be accurate to at least ____ degrees and distances to at least ____ meters 11 It is required that for linear offsets the following specifications be observed 81 VII VIII Physical reference markers are to be established every _ The Field Operator is to record the following information horizontal distance and the direction left or right perpendicular to the direction of travel The maximum linear offset i e horizontal distance allowable is ____ meters Line
124. sidewalks and trails can be collected using foot bicycle or motorized vehicle travel Despite these differences common best practices do exist for the collection of road sidewalk and trail centerline collection The following are data collection tips General Collection Tips I Centerline Collection from Beginning to End When an intersection does not exist at the end of a road or trail collect to the far end of the centerline 1 e a road cul de sac or dead end to a trail See Figure for examples FIGURE 1 E Start Collection Stop Collection Road or Trail Collection from an Intersection to a Dead End When a cul de sac has an island or curbed circle in the center of the cul de sac collect the centerline completely around the island See Figure 2 for examples 70 II E Start Collection Step Collection Collection Technique for Cul De Sacs and Islands Under Runs vs Over Runs An under run is created data collection stops prior to reaching an endpoint 1 e road or trail intersection Ideally data collection should clearly start and stop at centerline intersections in order to prevent future confusion for staff attempting to integrate the data into the existing USGS DLG F data set An over run is created when data collection continues past the intended stop e road or trail intersection Over runs create less confusion during the data integration phase and are more easily edited out of the data set If
125. splayed on the GPS receiver in the New York State Plane projection State Plane New York Long Island feet 19 Users should have an understanding of the projection the data are being collected in and the projection in which the GIS project is in GPS receivers are designed to collect data and perform real time correction in an unprojected geographic coordinate system latitude longitude Most manufacturers allow the user the option of displaying the data being collected on the GPS receiver in most projections Refer to Appendices C for maps of the State Plane Zone 7 Units of Measure Users should be aware of the units of measure that are commonly used with each projection The State Plane projections can be published in US Survey Feet or meters Users should also be aware of the International Foot unit of measurement which is different than the more commonly used US Survey Feet Users should have an understanding of the units of measure in which the data can be displayed on the GPS receiver Some manufacturers allow the user the option of displaying the data being collected in different units of measure e g US Survey Feet International Feet Miles Meters etc When collecting data with a GPS receiver the geographic location is represented as a coordinate pair e g 42 8123N 75 8066W The positional coordinate pair can be displayed in some common formats Latitude Longitude Degrees Minutes Seconds DMS A latitude or longi
126. stance traversed 49 The traverse must be balanced between the end points by an acceptable method i e compass rule adjustment If applicable physical reference markers must be established at an interval of meters along linear features Enter N A if this doesn t apply If the Contracting Agency has standards for reference markers they will be used unless other standards are agreed to It is required that physical reference markers have static point features collected as STANDARD HIGH circle one Significance points The maximum allowable SNR mask CAN CANNOT circle one be relaxed during a linear traversing Vill GPS BASE STATION It is highly recommended that users employ a CORS station either on Long Island or one of the CORS stations in the two neighboring states Temporary GPS Reference Stations established by the Contractor are not covered in the scope of the GPS guidelines document It is required that the baseline distance between the CORS stations and the field receivers be reported in miles If the project area covers a large geographic extent greater than 10 miles in either direction then this value should be broken down to minimum and maximum baseline distances If the baseline distance is greater than that the distance present during Validation and the validation accuracy was border line to the target accuracy then the Contractor must detail how the target accuracy will be met with the increase in b
127. stent terminology that allows for direct comparison between data sets Fortunately these standards have been condensed into a usable document by the Minnesota Land Management Information Center MLMIC titled the Positional Accuracy Handbook Using the National Standard for Spatial Data Accuracy to Measure and Report Geographic Data Quality see links at beginning of this section This provides a step by step set of procedures that results in an accuracy statement for the data being tested and is a central resource for applying this accuracy standard The FGDC develops standards to implement the National Spatial Data Infrastructure NSDI http www fgdc gov nsdi nsdi html 4 A Re Observation The NSSDA standard requires that a minimum of 20 check points be tested independently of the original GPS survey These points should be distributed throughout the geographic area of interest and be representative of the type of error likely to occur in the dataset e g points under canopy in narrow ravines north facing locations etc The testing of 20 points allows for one point to fail the target accuracy threshold while allowing the remainder to be within the 95 confidence level of the target accuracy While the ideal for this standard is to acquire the independent data set separately from the test data and that it be three times more accurate the practical solution presented in this standard is to re observe 20 representative points using eit
128. such as allowing users to 1 load customized data dictionaries 2 capture lines and areas in addition to point data 3 collect points along line and area features and 4 export data directly in a GIS compatible format 35 Trimble registered trademark 68 Appendix G United States Coast Guard Differential GPS Coverage of New York State Legend double coverage J single coverage A operational site EN planned site la ich HY yee Or 1Cnes p W Bandy Hook NJ ee ram DE ty mi ya J ers Nisa IND vA Shh nee 5 Byr ENY o 3 is vi Jf irr VA fe aa 3 USCG Navigation Center DGPC Coverage Page New York 20 Dec 2006 lt http www navcen uscg gov dgps coverage N Y ork htm gt 69 APPENDIX H RECOMMENDED DATA COLLECTION PRACTICES This entire appendix is based on a section of the Georgia Department of Transportation GPS Data Collection Guideline and Standards A Manual for Georgia Service Delivery Regions and Regional Development Centers document with some minor reformatting GPS Collection methods used to capture roads sidewalks and trails can vary depending on a variety of factors Collection of road centerlines under the data standard outlined in this manual requires the use of a motorized vehicle car truck capable of highway travel Collection methods for sidewalks and trails can vary Depending on environmental factors congestion and accessibility
129. t Each NAVSTAR satellite has its own unique PRN code Radio Technical Commission for Maritime Services RTCM A commission established to define a differential data link for real time differential correction of roving GPS receivers There are two types of RTCM differential correction messages Most modern GPS receivers use the newer Type 2 2 RTCM protocol Real Time Differential Correction The processing of satellite data as it is being collected in order to eliminate error This involves using software to compare data from the rover to data collected at the base station Because the base station is a known location systematic errors can be determined and removed from the rover data as it is being logged This correction is not instantaneous and adequate time on station should be planned for accurate readings Users should consult the 60 manufacturers guidelines for their specific hardware for recommended time on station Two free systems offering real time differential correction capabilities include the United States Coast Guard USCG beacon system and the WAAS system The USCG beacon system has a greater accuracy than WAAS and is more reliable See Time on Station Reference Station See Base station Root Mean Square RMS An expression of the accuracy of a point measurement It is the radius of the error circle within which approximately 68 of position fixes are to be found RMS is typically expressed in distance units of feet or
130. t is an important indicator of position accuracy Since a GPS position is the calculated intersection of measurements from multiple satellites GPS data are more accurate if the satellites are evenly distributed in all quadrants around and above the receiver The ideal geometry of the satellites which will produce the lowest PDOP is to have three satellites at 15 degrees above the horizon and evenly distributed separated horizontally by 120 degrees with a fourth satellite directly overhead Since the GPS system was designed to maximize coverage over temperate regions of the globe this theoretical ideal isn t even possible in the current configuration of satellite orbits GPS receivers calculate PDOP from the distribution of usable satellites in the sky at the moment of data collection Receivers search for and use the combination of available satellites that will 18 produce the lowest dilution of precision within the threshold setting specified by the user This Guideline recommends that you set your GPS receiver to stop collecting data when the PDOP is over 6 2 Signal to Noise Ratio SNR Mask Setting the value of the SNR mask higher will help minimize noise error Varies from GPS receiver manufacturer each manufacturer has their own recommendations user must refer to their specific user manual 3 Elevation Mask Angle As mentioned above the distribution of satellites above the horizon is used to calculate PDOP Most GPS receiv
131. t processing and CAD GIS software be available and they should have the capacity to assess quality control measures such as solution variances standard deviations and observation residuals in the data The GPS receiver and software used must be capable of storing pseudorange data to permit the generation of these measures The re processing of the data should follow procedures outlined in sections IV 2 Differential Correction to Improve GPS Data Accuracy and IV 3 D Advanced Data Processing for checking 15 of all data The original GPS base station data should be reused unless the Contractor setup their own field reference base station in which case the nearest CORS base station data should be used in re processing Complete Audit The highest level of audit is the re survey of a small portion of the Contractor s work The original contractor should not do the work in order to ensure objectivity of the test The re survey test should not include features originally re observed by the Contractor in order to expand the scope of points re observed and to provide a separate value of relative accuracy This value should compare to the original relative accuracy determination and can prove useful in official situations where courts or appeal boards etc are involved As with the Detailed Audit work must be done by qualified personnel or independent consultants and both GPS post processing and CAD GIS software be available 37 iv Other Audit Pro
132. tance off the desired position but a compass bearing and estimate of distance to the actual point are also collected Post processing the position with the offset information projects the collected data to the actual location from the offset location Differential Correction to Improve GPS Data Accuracy Differential correction removes certain types of error from GPS data and can occur back in the office post processing or as you are collecting data in the field real time Post processing these corrections is a little more accurate than real time differential correction because the individual fixes and the corresponding base station corrections are perfectly time synchronized whereas real time corrections introduce a time delay between the correction data and the position Both methods of correction work by comparing satellite signals received by the receiver with those received by a base station which is fixed over a highly accurate surveyed point Base station correction values are calculated and then applied to the rover data to increase their accuracy to 5 meters or less depending on the GPS receiver grade Both post processing and real time differential correction require that the base station and receiver are able to record data from the exact same satellites In addition the base station should be within 100 miles of the field data collection site to maximize the effectiveness of the post processing When differentially correctin
133. ter Signals traveling longer paths produce higher erroneous pseudorange estimates and consequently positioning errors The user should be aware that multipath errors are not detectable or correctable with recreational grade GPS receivers Some mapping grade GPS receivers as well as most or all survey grade GPS receivers have antennas and software capable of minimizing multipath signals 2 Atmospheric GPS signals can experience some delays while traveling through the atmosphere Common atmospheric conditions that can affect GPS signals include tropospheric delays and ionospheric delays Tropospheric delays have the capability of introducing a minimum of 1 meter variance The troposphere is the lower part from ground level to 13 km of the atmosphere that experiences the changes in temperature pressure and humidity associated with weather changes Complex models of tropospheric delay require estimates or measurements of these parameters Unmodeled ionospheric delays have the potential to introduce significant i e gt 10 meter positional error The ionosphere is the layer of the earth s atmosphere generally ranging from 50 km to 500 km above the earth s surface During periods of heightened solar activity charged particles ions in the ionosphere impede GPS signal transmission Specific phenomena that do affect the GPS signal quality include periods of high solar activity e g solar flares The 12 CORS Data 20 Dec 2006 lt
134. that unlike a feature holds no attribute information beyond a name and location Typically waypoints are used to denote objects or locations of primary interest such as a survey mark Waypoints are most often used for navigation WGS 84 World Geodetic System 1984 the mathematical ellipsoid used by GPS since 1984 See also Ellipsoid 62 Appendix B Useful GPS and Related Websites GPS TRAINING AND INFORMATION RESOURCES 1 General GPS Information Trimble GPS Support and Updates Terra Sync Pathfinder Office GPS hardware etc www trimble com support ESRI Support for ArcPad GPS Analyst Extension www support esri com ArcPad Blog http arcpadteam blogspot com Long Island GIS www ligis org National Geodetic Survey NGS Continuosly Operating Reference Stations CORS http www ngs noaa gov CORS Historical Maps www historicmapworks com Library of Congress Maps http memory loc gov ammem gmdhtml Glossary of Terms http www novatel com about_gps glossary htm GPS Information http gpsinformation net United State Coast Guard Navigation Center http www navcen uscg gov US Naval Observatory USNO GPS Operations http Aycho usno navy mil gps html Positioning Navigation and Timing http www pnt gov 2 GPS Publications GPS World Online Magazine http www gpsworld com Point of Beginning http www pobonline com GPS User Magazine http www gpsuser com GPS Reviews
135. the maximum Signal to Noise Ratio be It is required that the DOP not exceed the following values DOP Component Maximum DOP Value Allowed Geometrical DOP GDOP Positional DOP PDOP Horizontal DOP HDOP Vertical DOP VDOP 48 Not all DOP values are required to be completed VDOP limits are only required when accurate elevations are required B Data Collection hesa During Static point mode surveys it is required that the feature be occupied according to the minimum values below or the values used during the Validation survey which ever is higher Point Significance Minimum Occupation Minimum Number Time sec of Fixes hS SZS SZS SZS SZS SZS w SCS SZS SZS SZS Standard Significance Point High Significance Point It is required that position fixes being mapped statically for linear features i e static or point to point traverses not be greater than meters apart Capture the traverse A according to the specs outlined for Standard Significance Points It is required that position fixes being mapped dynamically for linear features in a dynamic traverse not be greater than meters apart It is required that both ends of a dynamic traverses be captured to the specs outlined for High Significance points These can be referred to as either the Point of Commencement PoC or the Point of Termination PoT It is require
136. ting Agency data is the first order of business and can be covered by different levels of auditing The level and number of audits depends on available project resources scope and mission critical nature of the data The three levels of audit presented here are 1 Quality Check Audit 2 Detailed Audit and 3 Complete Audit While the Contractor should clearly understand how their data is going to be audited they should not be given any information that allows them to predetermine what points or line segments will be reviewed to avoid biasing the results Review features should be selected randomly while still representing the project as a whole The ascending levels of audit entail an increasing level of detail while at the same time testing a smaller percentage of the GPS data e g 15 5 and 1 for the respective audits e g Quality Check Audits Detailed Audits and Complete Audits i Quality Check Audit The purpose of this audit is to verify that all deliverables detailed in the contract are submitted in full adhere to the relative accuracy targets and digital data specifications and that field data was collected following the appropriate protocols It is highly recommended that this type of audit be conducted on all projects as a primary means of verifying project objectives have been successfully completed This basic check can be achieved by reading the project report ensuring the completeness of all digital data and its relative
137. tion information which explains how a potential user can acquire the data set 59 Minimum Elevation See Elevation Mask Multipath Interference similar to ghosts on a television screen which occurs when GPS signals arrive at an antenna after traversing different paths The signal traversing the longer path will yield a larger pseudorange estimate and increase positional error Multipath occurs when GPS signals reflect off a surface before reaching the GPS antenna NAVDATA The Navigation Message broadcast by each GPS satellite on both the L1 and L2 transmitters This message contains system time clock correction parameters ionospheric delay model parameters and the satellite vehicle s ephemeris and health A GPS receiver uses this information to process GPS signals and thus obtain user position and velocity NAVigation Satellite Timing And Ranging NAVSTAR System The formal name given to the United States Department of Defense s navigation and timing system comprised of GPS satellites monitoring stations and Master Control Station P Code The precise code transmitted by the GPS satellites Each satellite has a unique code that is modulated onto both the L1 and L2 carrier waves The P code is replaced by a Y code when Anti Spoofing is active PDOP Mask The highest level of PDOP that will allow the GPS receiver to compute a fix For example if the PDOP Mask is set to 6 the GPS receiver will not record a location when the PDOP e
138. tude might be written as 43 5 20 where the single quotation represents minutes and the double quotation symbol represents seconds Latitude Longitude Decimal Degrees DD The same coordinate would be written as 43 088889 Latitude Longitude Degrees and decimal minutes The same coordinate would be written as 43 5 333333 UTM 18 extended North meters The same coordinate would be written as 4740283N 434057E State Plane New York Central US feet The same pair would be written as 312608N 313525E US National Grid The same pair would be written as 18T WN 7125315437 Conversion of a coordinate pair between any of these three formats can be performed with a relatively easy formula found within existing tools Additionally calculators and mathematical formulas on the Internet allow translation of one coordinate pair i e latitude longitude in any of these formats into another format for that same location Refer to Appendix B for a list of useful websites C GPS Data Download and Processing The data download process varies by GPS receiver manufacturer so the user should refer to their specific user manual for instructions 20 D Quality Control Data should be reviewed to determine if procedures established during mission planning were followed High resolution orthophotos such as those available through the New York Statewide Digital Orthoimagery Program NYSDOP can be used to determine
139. ue centerline of the sidewalk Exercise caution when applying offsets during data collection Be certain to apply the correct side measurement and units for the offset prior to data collection see Figure 8 If unnoticed during data collection offset errors can render an entire data collection effort useless And offset errors are hard to ascertain during the post processing phase If you suspect an offset error at the post processing phase use DOQQ or other aerial imagery to perform quality control If offset errors are detected during the post processing phase it may be possible to use PathFinder Office to correct any mistakes made due to miscalculation of distance or direction However if too many offset errors are present and a clear method cannot be established to correct the mistakes re collect the centerlines 75 FIGURE 8 8 3 3 Common Offset Errors VII Segmenting The segmentation option is used to change one or many attributes that differentiate along any given road sidewalk or trail centerline For example if the centerline lane width changes along a specific path during data collection use the segmentation function to signify a new record to the attribute table For example if a paved bituminous surface road 1s being collected and the surface type suddenly changes to that of gravel or stone apply the segmentation button at the exact location where the two surface types meet This allows changes along a
140. ured to determine the relative accuracy level B Determining the NSSDA The NSSDA uses the root mean square error RMSE method to estimate positional accuracy RMSE is calculated by squaring differences between the original and re observed independent coordinate values and then Squaring the average value of the differences Subsequently the NSSDA statistic is determined by multiplying the RMSE by a value that represents the standard error of the mean at the 95 percent confidence level 1 7308 when calculating horizontal accuracy and 1 9600 when calculating vertical accuracy The NSSDA accuracy statistic is reported in ground distances at the 95 confidence level Accuracy reported at the 95 confidence level means that 95 of the positions in the dataset will have an error with respect to true ground position that is equal to or smaller than the reported accuracy value MLMIC Positional Accuracy Handbook pp 8 42 Reporting This value can be reported in one of two ways refer to either the FGDC NSSDA standard or the MLMIC s Positional Accuracy Handbook for more details Refer to the Positional Accuracy Handbook for questions on these steps To generate the NSSDA Statistic conduct the following steps 1 Acquire the following resources if you haven t already A Geospatial Positioning Accuracy Standards Part 3 National Standard for Spatial Data Accuracy http www fgdc gov standards documents standards accurac
141. ust accompany the deliverables Regardless the parameters outlined in the specifications must be followed for both pre qualification and contracted fieldwork A validation survey simply compares the coordinate values of points acquired by the Contractor with known values The Contracting Agency can establish a Test Range with either point line and area features located to simulate field conditions e g canopy steep terrain etc where Contractors acquire location that are compared to highly accurate feature coordinates acquired using traditional methods If practical it is recommended that at least two of these points be benchmarks from the National Spatial Reference System NSRS Horizontal and vertical values must be tested with horizontal or vertical benchmarks respectively Needless to say the Test Range requires qualified personnel to establish and evaluate in order to ensure that the trials are fair and scientifically defensible When evaluating test results don t neglect practical non accuracy related considerations e g if the target accuracy is 5m then the small firm with less expensive equipment acquired 3 5m accuracy vs the large firm with 1 5m accuracy may be able to do the job more economically and just as well Once a Contractor s system has been validated for a certain accuracy level they may be exempt from future validation requirements if key components and conditions affecting their GPS system are unchanged 1 Key
142. vidual or agency level that allows results to be easily integrated To qualify a GPS Contractors equipment methods and employees to ensure target accuracies are achievable under various conditions IV PRE QUALIFICATION AND VALIDATION A Total System It is required that any Contractor expecting to undertake GPS data collection be prepared to fulfill the requirements of the full System including GPS hardware and software for field and office field and GPS Reference Station receivers when applicable and reporting techniques All parts of the System are to be capable of meeting the contractual specifications below B Field Operator Training It is recommended that Field Operator s be qualified through a GPS training course provided by an established and reputable company agency or organization C Data Processor Project Manager Training It is required that Data Processor Project Manager s have an established track record in the planning management and implementation of GPS projects It is recommended that the background include the capture processing and management of GPS data D Contractor Validation For large or extremely important GPS efforts it is required that the GPS System used prove its ability to meet the accuracy targets through a validation survey Subsequent to determining validation accuracies and the conditions under which they were achieved the results should apply to all subsequent fieldwork For a lar
143. volved with base stations that affect the accuracy of post differentially corrected data 1 baseline error and 2 positional accuracy of the base station The latter error is negligible as all base stations within or in close proximity to Vermont have been surveyed to a high level of accuracy These are part of the Continuously Operating GPS Reference Station CORS network managed by the National Geodetic Survey Nationally CORS stations are considered to have a horizontal accuracy of 2 cm and a vertical ellipsoid height accuracy of 4 cm Base station positional accuracy becomes a more appreciable factor when a mobile GPS base station is established in the field however this document does not cover the use of these stations Baseline error is a function of an individual units rating the distance between the GPS receiver in the field and the base station and has a direct affect upon data accuracy Though not all receivers provide specification sheets that detail this issue all claims of receiver accuracy must have the baseline error added to derive true receiver accuracy This value is measured in parts per million ppm and generally speaking less expensive receivers generally have a higher baseline error component than their more sophisticated cousins See the CORS map http www ngs noaa gov CORS cors data html for base station locations nationwide MLMIC Positional Accuracy Handbook pp 7 43 Summary To meet the relative targ
144. with the caveat that GPS data accuracy does not significantly improve after a threshold number of points are collected In addition the collection rate should be equal to or a multiple of the sampling rate of the base station to be used in post differential correction e g 1 5 10 15 or 30 seconds Refer to Table IV 1 Static Data Collection Suggested Duration and Number of Fixes for suggested collection rates and collection durations For point data this Guideline recommends that you set the default data collection rate to one second and the minimum number of position to 30 When collecting line or polygon features the rate may vary between one and five seconds depending on your speed of ground travel 5 Datum GPS receivers are designed to collect GPS positions relative to the WGS 84 datum however the user has the option of designating into which datum the data will be displayed Users must have an understanding of the datum in which the GIS project is developed For most GIS applications the WGS 84 datum is similar to the NAD 83 datum however NAD 27 is significantly different from the NAD 83 datum Most manufacturers allow the user the option of displaying the data being collected in most datum s Various software exists that allow for the transformation of data from one datum to another Refer to Appendix B for more information on datum transformation 6 Projection It is recommended that data being collected with GPS be di
145. xceeds 6 Position Dilution of Precision PDOP A unitless figure of merit expressing the relationship between the error in user position and the error in satellite position Values considered good for positioning are small such as 3 Values greater than 7 are considered poor PDOP is related to horizontal and vertical DOP by the following formula PDOP HDOP2 VDOP2 See also DOP Postprocessing Differential Correction The processing of satellite data after it has been collected in order to eliminate error This involves using PC software to compare data from the rover to data collected at the base station Because the base station is on a known location systematic errors can be determined and removed from the rover data Precision A measure of the repeatability or uniformity of a measurement Precision relates to the quality of the operation by which the result is obtained and is distinguished from accuracy which relates to the quality of the result In order to comply with a specific standard accuracy results must meet the minimum while complying with the precision required Obtaining suitable accuracy results without complying with the precision is not acceptable to meet the standards Pseudorandom Noise or Number PRN A signal that carries a code that appears to be randomly distributed like noise but can be exactly reproduced PRN codes have a low auto correlation value for all delays or lags except when they are exactly coinciden
146. y chapter3 pdf and B Positional Accuracy Handbook Using the National Standard for Spatial Data Accuracy to Measure and Report Geographic Data Quality http www mnplan state mn us pdf 1999 lmic nssda_o pdf 2 Determine if the test involves horizontal accuracy vertical accuracy or both 3 Select a set of test points from the data set being evaluated representative of both the geographical extent and likely sources of error e g topography canopy etc 4 Select an independent data set of higher accuracy if possible that corresponds to the data set being tested 5 Collect measurements from identical points from each of those two sources 6 Calculate a positional accuracy statistic using either the horizontal or vertical accuracy statistic worksheet Accuracy statistic worksheets may be downloaded off the Internet from MLMIC s positional accuracy web page http www mnplan state mn us press accurate html and clicking on Accuracy Statistic Worksheets 7 Add any Base Station errors that apply to the statistic before reporting it e g base station accuracy or baseline error see below Prepare an accuracy statement in a standardized report form Include that report in a comprehensive description of the data set called metadata e C Base Station Accuracy The accuracy of all GPS field data benefits from post differentially correcting the points with base station files There are two minor elements of error in
147. y post processing 11 D Categories of GPS Receiver Comparison Table RECREATIONAL GRADE MAPPING GRADE SURVEY GRADE Primary Uses e Navigation hunting fishing e Resource mapping navigation e resource mapping site mapping camping backpacking hiking data GIS data collection land surveying navigation vertical collection measurement Horizontal Data Accuracy 5 to 20 meter e Sub foot to 5 meter real time Centimeter level real time OR post or post processing correction processed corrections with a survey control network Vertical Data Accuracy Not used to collect vertical data e 2 to 15 meter 2 to 3 times e lt 2 cm real time correction less accurate than horizontal lt 1 cm post processed corrections data with a survey control network Differential Correction Options Most do not have post processing e Post processing in all GPS e Real time in some GPS receivers capabilities receivers e Additional post processing to Real time correction WAAS in most e Most have real time improve accuracy is in all GPS GPS receivers capabilities WAAS and or receivers USCG beacon additional add on Type of Features Collected e points e points lines and polygons e points lines and polygons Option to Load Custom Data Dictionary with Feature Attributes e unavailable at this time e all GPS receivers e all GPS receivers Option to Load Custom Coordinate Systems Projections Datums Spheroids e some GPS receivers e all
148. ys been the responsibility GIS users to understand data limitations it is also the responsibility of both the Contractor and Agency to ensure integrity in the data they create Target accuracies that the data must meet and how these values are reported is detailed in Section B Accuracy Standards Reviewing this section will help interpret the following sections As all features are ultimately comprised of point features it is possible to apply standard statistical methods to each individual position averaged from numerous fixes and have them output from the desktop GPS software Including the raw GPS data as a requirement in the data deliverables allows these values to be recreated if not originally generated by the Contractor If more than the minimum number of fixes was collected for a feature it is possible to remove a number of outliers in order to recreate the averaged point and improve the points relative accuracy e g reduce the standard deviation An averaged point with a low spread of individual fixes and therefore a low standard deviation does not guarantee an increase in absolute accuracy See the General Concepts and Definitions in Section B Accuracy Standards for a discussion on relative vs absolute accuracy i Assessing Linear Features The method for assessing linear and polygon features is identical Linear features captured via Static or dynamic traverses usually have their individual point fixes edited to remove blunders

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