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VIY®3 Ground Penetrating Radar

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1. 133 25 ns 500 25 Trigger Mode Shift of Zero Topo Device Step of Measure Trace Numbers 6 Ext 0 43 m VO 20 123 76 199 mm Distance 24 63 m Wave speed mus m a g Hyperbola Forward Comments _ 721 O GPR VIY3 300i Header Header is located at the top of the Synchro3 Main window It consists of the application icon and name Click on the icon or right click on the header field Standard Windows context menu with commands application window management appears Main Program Menu The Main program menu is located below the header It contains currently available items Depending on the action adjustment sounding or profile processing the set of Main program menu items is changed If there are no open profiles the Main program menu includes five items File Acquisition Preferences Window and Help If at least one profile window is opened the Profile item is added to the Main program menu Each Main program menu item is set in correspondence a certain shortcuts Press Alt Note that in command of the Main program menu appeared underlined letters They correspond to the shortcuts To select any menu command press Alt and then the underlined letter corresponding to the called command Some of the more commonly used commands assign hotkeys which are listed to the right of the menu items The left of the command located the corresponding icons Icons of some
2. To wider the profile select appropriate Samples option in the Proportion X Y section of the View tab of the Operation window On the other hand the X and Y are in general different value of division For example value of division on the X axis is in the centimeter or meter range and the Y axis in the millimeter and centimeter range Binding to a commensurate value of division is useful in the profile analysis and interpretation of irregularities To display the profile in proportion to the dimension of the value of division select the appropriate Distance option in the Proportion X Y section of the View tab of the Profile window Grid Display Mn 1 To switch on off vertical grid press IT v Grid FH Grid V Grid button of the View tab of the khdarkars Profile window To switch on off horizontal grid press H Grid button of the View tab of the Profile window Set Zero Level Survey window is set so as to be visible direct pulse passing over the surface of the earth To correctly measure the depth is necessary to combine top of the depth scale to a certain point on the pulse maximum amplitude transition through zero etc Synchro3 program provides to set zero level oll x manually or automatically To set zero level click Set Zero Level button of the View tab of Shift m 0 46 the Profile window A dialog box appears Press Auto button to set zero level in the dip automatic mode If the result is
3. AB3 070t AB3 070r AB3 070ri AB3 125rw AB3 125riw AB3 125 AB3 125i AB3 125w AB3 125iw AB3 300 AB3 300i AB3 300w AB3 300iw AB3 500 AB3 500i AB3 500w AB3 500iw 70 MHz frequency antennas units with digital output built in battery GPS support and measuring wheel Options Built in inclinometers Built in WiFi channel 125 MHz frequency antenna unit with digital output built in battery GPS support and measuring wheel Options Built in inclinometers Built in WiFi channel 300 MHz frequency antenna unit with digital output built in battery GPS support and measuring wheel Options Built in inclinometers Built in WiFi channel 700 MHz frequency antenna unit with digital output GPS support and measuring wheel Options Built in inclinometers Built in WiFi channel General Information AB3 700 AB3 700i AB3 700w AB3 700iw Battery Box D Cable 3 D Cable 6 DP Cable 3 DP Cable 1 Charger OO ole de 700 MHz frequency antenna unit with digital output GPS support and measuring wheel Options Built in inclinometers Built in WiFi channel Compartment for the battery is in VIY3 500 and VIY3 700 packages Adapter to connect VO 20 measuring wheel to AB3 500 or AB3 700 antenna unit Measuring wheel to determine traveled distance is compatible with AB3 125 AB3 300 AB3 500 and AB3 700 required A 700 Cable 3 m length to transfer data between A
4. Band Pass Filter Band Stop Filter Band Pass Filter IV Apply Band Pass Filter IV Apply Filter Type Filter Type AN Band Pass Filter SN Band Stop Filter JER Band Pass Filter NE Band Stop Filter Frequency MHz 300 Frequency MHz fi 67 Quality Factor fi Quality Factor B id i i I P i VA od Dag 01 02 03 04 05 05 OF lg feet ket nrk dig erd Frequency GHz Frequency GHz Add X Cancel A Yes x Restore The BPF BSF configuration window contains the following items Edit Box This field specifies tool name Initially the field contains tool name by default The tool name can be edited Apply The tool is activated when is checked Filter Type Select type of the filter bandpass BPF or bandstop BSF Adjust central frequency of the filter Fits slider or in the field Adjust quality factor Q frequency of the filter Fits slider Factor or in the field The Band Pass Filter BPF passes spectral components of the trace in a given band and suppresses components beyond The Band Stop Filter BSF suppresses spectral components of the trace in a given band and passes components beyond Bandwidth or suppression is determined by Frequency and Quality Factor O parameters The greater the Q value the narrower bandwidth or suppression Spectra of the initial and processed traces as well as normalized frequency response are p
5. General Preferences Access this dialog box with information about GPR as well as parameters settings of measuring wheel odometer GPS and inclinometers Big Buttons Switching size of the buttons display Main program menu Language Interface language English Russian Chinese Window Menu window Help Window menu controls placement of profile windows H Cascade in Main window It contains five items Arrange Icons Minimize All Cascade Cascade placement of all open profile CT Tile vertically windows Tile Horizontally Arrange Icons Placement of all minimized profile windows in the lower left corner of the Main window Minimize All Minimize and placement of all minimized profile windows in the lower left corner of the Main window Tile Vertically Placement of profile windows so that they filled the whole field of Main window Splits vertically Tile Horizontally Placement of profile windows so that they filled the whole field of Main window Splits horizontally Help Help Menu Aeon ou Help menu provides reference information about Synchro3 program It contains two items Help Reference information about Synchro3 program About Displays information about Synchro3 program including version number Profile Window ba Window Depth Each GPR profile er is opened as a child ge window Workspace of mg forsone an Profile Window is split f22Nee to r Distance 24 63 m into two areas The
6. e Press Save Name of text file is matched with name of exported profile by default But extension is changed from sgpr to seg GPS data are exported to separate file The file name is the same and extension is gps Example of gps file Source File C Transient Technologies VIY3 data ges2 sgpr HEHE HTH Trace No NMEI 0 GPGGA 144339 000 0223 6416 N 07539 6695 W 1 07 12 GPGGA 144708 000 0223 5717 N 07539 7319 W 1 00 23 GPGGA 144905 000 0223 5122 N 07539 7545 W 1 00 67 GPGGA 145341 000 0223 4824 N 07539 7490 W 1 07 41 Profile Display Print Synchro3 program uses Windows operating system capabilities to print processed profile with applied tools To print the profile do the following e Select File gt Print e Select printer and adjust the print settings in the Print dialog box e Press OK Profile is placed on A4 paper At the top of the sheet is a header which contains reference information about the profile in according with Profile Properties tab 42 Profile Processing Profile Processing Profile Processing Algorithm Synchro3 program can process profiles acquired by VIY2 and VIY3 series GPR Profile processing by Synchro3 software is organized the following manner Computer memory stores two files with the same name but different extensions There are original data file sgpr and tools file tls Tools file contains a list of applied tools their adjustments
7. the estimated speed or selected from a list er vperbola if one can determine the type of soil Then the processing profile this parameter can be changed To edit wave speed select Profile Properties tab in the Profile window of the current profile To change the wave speed do one of the following e Enter wave snraad in the Wave speed frame e Click button gt and select necessary value from the list e Use Hyperbola function Hyperbola Function Hyperbola function is available for profiles acquired with measuring wheel To determine wave speed by Hyperbola technique do the following Find hyperbola response from the small object on the profile Push Hyperbola button in the Wave Speed frame Red colored hyperbola appears on the profile Move your mouse cursor to the top of the hyperbola response from the object Align hyperbola with red colored one varying the wave speed Wave speed in the media is determined Distance m RE Distance m 4 incorrect incorrect correct 36 Profile Display v The wave speed can be changed using the keyboard Click on a profile on the profile apear the red line Using up down key buttons for change of speed by ones If by holding down the Shift key then up down key buttons increases reducing by ten units Comments Editing Features of the data acquisition place of work conditions special notes etc are written in the Comments field Comments help in d
8. to the following formats text bitmap and SEG Y 40 Profile Display To export profile to bitmap format do the following e Select File gt Export gt to bitmap e Enter file name to File name field of Save as Text File dialog box e Press Save Name of bitmap file is matched with name of exported profile by default But extension is changed from sgpr to bmp To export profile to text format do the following e Select File gt Export gt to text e Enter file name to File name field of Save as Text File dialog box e Press Save Name of text file is matched with name of exported profile by default But extension is changed from sgpr to dat The data in the text file are presented with three columns separated by spaces xx yy ffff xx yy ffff xx yy ffff where xx X coordinate yy Y coordinate ffff sample amplitude GPS data are exported to separate file The file name is the same and extension is gps Example of gps file Source File C Transient Technologies VIY3 data ges2 sgpr HHH Trace No NMEI 0 GPGGA 144339 000 0223 6416 N 07539 6695 W 1 07 12 GPGGA 144708 000 0223 5717 N 07539 7319 W 1 00 23 GPGGA 144905 000 0223 5122 N 07539 7545 W 1 00 67 GPGGA 145341 000 0223 4824 N 07539 7490 W 1 07 To export profile to SEG Y format do the following e Select File gt Export gt to SEG Y e Enter file name to File name field of Save as SEG Y File dialog box
9. In 100 CQ Zoom Out Pro portion KN Samples 1 lE Distance 24 11 Es IT v Grid Hard Markers Show ile Edit Set Zero Level Wiggle Hand Tool s gt Flip horisontal 2 Topographic correction Zoom Out Scale smoothly reduction of current profile Proportion X Y Samples Change ratio between vertical and horizontal scales when these scales calibrated in pixels 1 1 Step of the vertical and horizontal scales are equal 1 3 Step of the horizontal scale three times more than step of the vertical scale 1 5 Step of the horizontal scale five times more than step of the vertical scale Distance Change ratio between vertical and horizontal scales when these scales calibrated in units of distance 2 1 Step of the horizontal scale two times less than step of the vertical scale 17 General Information 1 1 Step of the vertical and horizontal scales are equal 1 2 Step of the horizontal scale two times more than step of the vertical scale V Grid Display vertical grid on the profile H Grid Display horizontal grid on the profile Markers Show Display markers on the profile Edit Edit markers Set Zero Level Set zero level of depth manually automatically Depth scale starts from zero level Wiggle Display trace on the profile as A scan Trace selection corresponds to the cursor position on the profile Hand Tool Navigate profile scrollin
10. Mode Operating mode selection Mode1 Discrete function Haar wavelet derivative Add es Add tool Stop adding tool Apply tool after options editing Restore the last saved tool configuration The Three Point Correlator is a versalite tool Samples averaging In Mode 1 it produces the second derivative of the trace Vertical Base value is equal 1 It allocates reflections from underground facilities by non linear filtering In Mode 1 the tool performs cross correlation the trace with discrete function Haar wavelet derivative Vertical Base value is greater than 1 It sharpens boundaries and increases special resolution of the profile when value of Vertical Base is small Selection of optimal Vertical Base parameter improves contrast of the profile In Mode 2 it provides mooving average blur with triangular window Vertical Base value is equal 1 It can be used to smooth traces in the profile In Mode 2 the tool averages sparse samples of the trace Vertical Base value is greater than 1 It suppresses periodic oscillations of arbitrary shape The tool may be useful to reduce visibility ringing on the profile which are badly processed by other tools Changing the setting can be done using the slider or by specifying a numerical value in the box Input box accepts only numbers as well as pressing the up down keyboard buttons Use up keyboard button to increase the parameter to 1 down to decrease If h
11. The amplitude color dependence is determined by color palette For example in the case of palette by default grayscale minimum value corresponds to black maximum to white and zero to gray colors Time ns Siz et L ze o w ydag 79 75 70 66 62 57 53 48 44 40 35 31 26 22 18 13 9 4 987 asic Bat LO S Trace a set of samples that make up result of sounding in one point of profile Profile is displayed by one column pixels of different colors or curve using Wiggle tool Sample an elementary part Distance m of the trace is a single point on the profile 1813 9 4 Profile properties there are configuration options of the GPR set before sounding GPR model trigger mode number of samples per trace etc 26 22 48 44 40 35 31 Tool software module for profile processing in order to enhance the detection of subsurface heterogeneities and identify them 79 75 70 66 62 57 53 13 General Information Main Window Synchro3 software is developed to work with VIY3 series ground penetrating radars It is a standard window application in Windows operating system In initial state it contains the following items e Header e Main program menu e Working space e Status bar Information about the coordinates of the cursor nd Penetrating Radar C Tr ansient r 05 sgpr l Xi gt m lt Distance 6 9 40 1 12 13 14 15 16 17 b gt hs
12. The pigtail is not included in GPR package and should be ordered separately Any external device with NMEI output protocol and RS 232 interface can be connected to antenna unit 27 Getting Started Use of Built in Inclinometers Some antenna units have built in inclinometers There are AB3 125i VIY3 125i GPR package AB3 300i VIY3 300i GPR package u AB3 700i VIY3 700i GPR package Built in sensors measure tilt and roll of antenna unit Information about antenna tilt and traveled dictance allow to do topographic correction More about topographic correction read on page 39 Inclinometers Calibration Before starting the sounding make sure that inclinometers are calibrated Place antenna unit on the ground and wait for 10 minutes in order to temperatures of the antenna unit and ambient are equalized Connect the antenna unit to laptop and run Synchro3 software Select Preferences gt GeneralPreferences Push Test button Values of Quality of calibration and Tilt will change with orientation of the antenna unit Value of Quality of calibration must be within 1 02 0 98 with motionless antenna unit If Quality of calibration value exceeds this range it is necessary to calibrate the inclinometers Take the antenna unit to hands and push Calibrate button Calibration coefficients Xmin Xmax Ymin etc will vary Slowly without any sudden movements rotate the antenna unit around longitudinal and then transverse axis The antenna u
13. and sequence of their application Such a way if preprocessed file is opened first tools in accordance with the list process the raw data and then the result is displayed on the screen List of applied tools appears in the Tools tab in the form as a tree Tools are managed by using the buttons from Tools tab or by mouse Synchro3 program provides the following tools Nonlinear Amplifier Three Point Correlator Wavelet Filter Windowed Background Removal Migration Appearance of active tool icon changes during the processing Green triangle is in the lower left corner of the icon Icon will fade if the tool is not active 43 Profile Processing Add Tool To add the tool click Add button of the Tools tab of the Profile window Select desired tool in List of Tools window and click Apply Tool Selected tool appears in tools window of Tools tab The profile in the Profile window changes in according with tool options set by default In Converters tab placed tools that transform profile The speed of the xj Tools Converters Rectifier IR Band Pass Filter G Blur Comparator gt Nonlinear Amplifier ri Three Point Correlator Description 1D Filter It provides cross correlation of the signal with signal like function suppressing low frequency fluctuations and high frequency noise A Apply Tool X Cancel converter is lower than other filters xf Punbrper Konseprepel
14. cases Transmitter unt and Receiver unit There are DATA ADD and SYNCHRO sockets located on cover of the Receiver unit SYNCHRO and CHARGE located on cover of the Transmitter unit Every unit has the battery covers are fixed by four screws To replace the battery is enough to remove the cover For convenient carrying with two operators are carrying handles on the side of antennas units Screws with rings for attaching belts between units and a transport belt are located in front and back of the antennas units Transmitter Unit Carrying handle Battery cover handle Receive Unit AB3 125 Antenna Units Components arrangement of AB3 125 and AB3 125i antenna units are shown here There are DATA and ADD sockets located on cover of the antenna unit The battery cover is fixed by four screws To replace the battery is enough to remove the cover Belt carrying handles are on the side of the antenna unit for convenient carrying as one or two operators Screws with rings for attaching a transport belt are located in front of the antenna unit ADD socket Battery cover DATA socket Rings for transport belt attachment Carrying handle 10 General Information AB3 300 Antenna Units Components arrangement of AB3 300 and AB3 300i antenna units are shown here There are DATA and ADD sockets located on cover of the antenna unit The battery cover is fixed by four screws To replace the battery is enough to remo
15. cccccccsseseeeeeesseeeseeees 45 Remove Jool ooanoannnnnnennnnnesrrnnnnnrrrsrrssrrsnrrnrrrnrenrrrrrereeene 45 Remove All TOOIS rrnrannnnanennanenvanennnnrnnnnnnnnnnnnnnnnannnnnnen 45 Save Set of TOOIS uaedsss endene 45 Apply Set of Tools eee Rene eee eee eee cer eee oe eee 45 19008 ar E E 46 Et COE TO PEA E EE E 46 ET EE ENE E 48 Comparator savnede 49 Nonlinear Amplifier rrnnnnnnnnnnrrnnnnrnnnnnnnnnnnnnnnnnnnnnnnnnnnnn 50 Three Point Correlator ccccccceseeeeseeeeeeeeeeeeeeeseeeeeees 51 Low Pass Filter High Pass Filter rrnnnnnnnrnnnnnvennnnnnnr 53 Band Pass Filter Band Stop Filter c esse 55 ET EE NE ME 57 Wavelet FET iscsi 58 Windowed Background Removal nrxvrnnnnvrnnnnvvnnnnnvnnnr 59 PUIG Te FE ee 60 Malo A E E cauwdanne sence E 61 Specifications s ccsccssvetcericseeeavncccnincrivsanawacrtetueescarsnsanmnnens 62 Order information ax revnnennnnnannnnnnnnnnnnnnnnnnnnnnnnnnnnnennnnnenr 62 WiFi Specification rannnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnennnnnennnnnunenn 63 Limited Warranty sacsensesanncsanauncannsaneticawesneventneseunwossneecaens 64 General Information General Information VIY3 GPR Application VIY3 Ground Penetrating Radar GPR is designed for non destructive investigation of various media The GPR can be used by geophysicists builders environmental organizations to detect and monitor the condition of underground utilities including plastic
16. e Select desired depth of sounding Survey Window frame Select samples number per trace Number of Samples frame This option determines the level of vertical detail in obtained profile Recommended value is 500 e Select stacking value Trace Stacking frame This option affects the noise level in the profile The higher stacking value the greater noise reduction Recommended value is 10 e Specify type of external triggering device Not used GPS VO 20 Cart 36 Adjust Step of acquisition if VO 20 or Cart 36 was selected Adjust Decimation of GPS signal if GPS was selected Topo Device frame e Specify data acquisition mode Single Int or Ext Trigger Mode frame see page 33 e Add comments description of place and sounding conditions Comments frame To verify GPR operation press Start button or select Start in the menu of GPR Setting window The graph on the right side appears the signal received from the antenna unit Make changes to the settings if necessary Close GPR Settings window Preparation of the GPR to work is completed Click OK button or close the GPR Settings window Until beginning the data acquisition the GPR setting can be modified Select Acquisition gt GPR Settings in the Main program menu or click icon in the toolbar The next profile settings corresponds to the previous one You can 32 Getting Started proceed the data acquisition immediately To save the GPR settings select File
17. formats bmp dat and others The number of file formats is defined by export plug ins presence Print lt Ctrl P gt Print current profile Exit Close Synchro3 program Profile Menu Profile menu controls the profile display It contains four ofie Acquisition Pi items Top Axis j Top Axis Set up the appearance of upper axis of the Profile Offset current profile There are three options Distance CQ Zoom In Traces or GPS data IB Zoom Out Profile Offset Setting of the profile displacement in relation to the measuring site By course Aside By height Necessary for the forming of C scan Zoom In lt Gray gt Change scale of the current profile to direction of increasing Zoom Out lt Gray gt Change scale of the current profile to direction of decreasing Acquisition Menu Acquisition menu is to adjust profile parameters amp GPR Settings before sounding It contains two items gt Start F2 asim Preferences GPR Settings Open dialog box for GPR settings Such parameters as survey window number of samples per trace trace stacking movement direction wave speed interval between the traces in the profile trigger mode and comments are presented here Start lt F2 gt Start the data acquisition 15 General Information Preferences Menu General Preferences Preferences menu adjusts connected devices and Big Buttons the Main program window appearance It contains three items
18. i h Tav h a eles 5 wg p 3 borr TIE N prp j3 pz 7 ig F gt ug N S de rn a nn er j m _ P OO Ch ee EE in rn s a i Ka Se The Rectifier application results a initial profile b profile processed by full wave rectifier c profile processed by positive half wave rectifier d profile processed by negative half wave rectifier 47 Tools Blur Bluri Blur l Apply Blur Horizontally 2 Blur Vertically z x Cancel Blur f Apply Blur Horizontally 5 Blur Vertically 12 M Restore The Blur configuration window contains the following items Edit Box This field specifies tool name Initially the field contains tool name by default The tool name can be edited Apply The tool is activated when is checked Blur Control smoothing of the GPR profile across Fits Horizontally slider or in the field vertical Fits slider or in the field Yes The Blur smoothes out sharp edges of the profile It reduces interference that appears as ripples or sand Horizontal blur improves display of geological layers in the profile resulting in heavy conditions of data acquisition GPR moving on rugged terrain Changing the setting can be done using the sliders or by specifying a numerical value in the boxes Input box accepts only numbers as well as pressing the up down keyboard buttons Use up keyboard
19. network ID SSID network password IP address and the subnet mask according to the router settings Click Save wa DE SSID VIY3NET Password VIY3PASS GPRIP 192 fiss fo 123 Mask 255 255 255 fo GPR Port 2000 Save v IP address of the GPR and the IP address of the network card should be different and meet the subnet mask v In a connection mode with router GPR set the number of a WiFi channel automatically Disconnect data cable Switch on a GPR by connecting terminator to the Data connector The terminator goes with the apparatus Start Synchro3 program It will connect the GPR automatically Status bar will show the information of a built in battery voltage GPR s type and the WiFi icon 31 Getting Started GPR Settings Start the Synchro3 exe Start gt All Programs gt Transient Technologies gt VIY gt Synchro3 The status bar at the bottom of the Main program window will appear It indicates name of connected antenna unit and its battery condition Select File gt Create in the Main program menu or press Ctrl N A new Profile window appears and immediately GPR Settings window is opened File Start General Preferences Model of GPR Profile Offse By course m Number of Sample F Single D Int DP Ext Stat Comments Then do the following e Enter wave speed in medium in Wave Speed frame or click button and select required value
20. node points set a linear change in gain in depth Move the cursor to node point its appearance change Press the left mouse button and drag the node point Adding intermediate nodes does change of the curve shape To add a new node point hold down the Ctrl button move cursor to the gain curve and right click In place of the cursor position a new node point will appear To delete node point hold down the Ctrl button move cursor to the desired node point and right click The node point will disappear Alignment of the signal amplitudes results to optimal contrast of profile view Distance m 0 00 052 1 24 187 249 311 3 73 435 498 560 6 22 6 84 7 86 8 09 8 71 9 33 9 95 10 57 11 20 11 8212 44 13 06 13 68 0 5 E Distance m 0 00 0 62 1 24 187 249 311 3 73 4 35 498 560 6 22 6 84 7 86 809 8 71 9 33 9 95 10 57 11 20 11 8212 44 13 06 13 68 0 ap Vela abe Sa NS mv w aie ara E SN fe Ve DN Wen ee NN a b The Gain application result a initial profile b processed profile of Tools Wavelet Filter or ne KG wavelet Filter1 Sed st ger fwavelet Filter1 The Wavelet Filter configuration window contains the following items tool name by default The tool name can be edited The Wavelet Filter performs cross correlation the trace with a special function MHAT wavelet The tool effectively suppresses low frequency fluctuations and high frequency noise Changing the setting can be done by speci
21. the shorter horizontal fragments are removed from the profile vias nt 2 49 311 3 73 435 498 560 622 6 84 7 46 8 09 871 9 33 9 95 10 57 11 20 11 82 12 44 13 06 13 58 Distance m 9 311 3 73 4 35 498 550 6 22 6 84 7 46 8 09 8 71 9 33 9 95 10 57 11 20 11 82 12 44 13 05 13 58 f 5 OASAN 0 n e pA VOGN ba Net P wry Wa i gt pe NAA SV a W r sk NAN AAN lg HANN a v 10 ud PAD TA AE ve a b The Windowed Background Removal application result a initial profile b processed profile 59 Tools Hilbert Filter enste oe Hilbert Filter1 0 er Joel IV Apply i Output Typ N Envelope Phase Envelope Phase The Hilbert Filter configuration window contains the following items tool name by default The tool name can be edited Add Yes The tool using the Hilbert transform allocates envelope of the trace that contains information about its energy The Hilbert Filter allows selecting on the profile areas of high humidity with no clear reflectors suffusion zones etc Changing the setting can be done by specifying a numerical value in the boxes Input box accepts only numbers as well as pressing the up down keyboard buttons Use up keyboard button to increase the parameter to 0 1 down to decrease If holding down the Shift key up down keyboard button increase decrease the parameter by 1 Distance m Distance m pE 062 1 24 1 87 2 49 3 11 373
22. to 128 Maximum depth of sounding depended by medium properties resolution H OT oO Oo Trigger mode Single Internal External File size of single up to 1 000 000 traces profile Interface USB2 WiFi optional Continuous 4 and more 8 and more operation time 1207x607x308 1105x580x2321610x312x1701311x176x152 311x176x152 1207x607x308 hours Operating from 20 C to 40 C temperature Dimensions mm dil Data acquisition rate depends on samples per trace and trace stacking Order information V LY 3 90 01w Series title Central Built in built in WiFi frequency MHz inclinometers channel Operating 240x140x200 1000x500x970 1580x500x320 dimensions mm Transport 240x140x200 845x500x320 845x500x320 dimensions mm 62 Specifications Operating from 20 C to 40 C temperature v Design and specification are subject to change without prior notice WiFi Specification Build in 2 4 GHz IEEE 802 11b g transceiver EMC Compliance Information RADIO EN 300328 V1 7 1 10 2006 EMC EN 301489 1 V1 8 1 04 2008 EN 301489 17 V1 3 2 04 2008 SAFETY EN 60950 1 2001 A11 2004 63 Limited Warranty Limited Warranty Warranty Transient Technologies warrants the enclosed hardware products to be free from defects in material and workmanship for a period of twelve months from the date of original retail purchase Transient Technologies warrants the enclosed user man
23. 2 W Wavelet Filter 43 53 Windowed Background Removal 43 59 Z Zooming 37
24. 2 e r Basic colors Basic colors E FAT BART AE ee eee ee fee 8 HE BE TAPERE ETAT EE ETETE E mE EM ADE EEEE g ERE Eee BEEBE EEE EEE EEE ES See Tt ft ton fm Custom colors Custom colors EEE EEE EEE EEE EEE EEE EERE EEE Define Custom Colors gt gt Jefine Custom Colors gt gt Click to Define Custom Colors button to display advanced dialog box Select the desired color and click OK Color of the selected slider will change Current palette and profile display will be changed also Double click to the working bar to add a new slider Modify color of the new slider Move the slider along the workiing bar by left mouse button a we To remove the slider select it by left mouse button and press Delete v The ends left and right sliders can not be moved or deleted Current palette is saved in the file of current GPR profile Click Save Palette button to store the palette in the Palettes library Anew button with image of this palette is shown in Palettes library Press and hold Ctrl to remove palette from Palettes library In this case near the cursor appears icon k Click on the palette button The palette will be removed from the Palettes library Palette removal from the Palettes library does not change GPR profile to which it was applied Click on the appropriate button in the Palettes library to apply this palette for the current GPR profile Export Synchro3 program exports profile with applied tools
25. 4 35 4 98 560 6 22 6 84 7 46 8 09 8 71 9 33 9 95 10 57 11 2011 82 om 062 124 187 249 341 3 73 435 498 560 622 684 7 46 809 8 1 933 995 1057112011 821 caiman ania ica ai ai cnc eee aid E SIK mwana PN TEET aa A NE P dd a eee i ar ee NN ver Ada ya p NG ad np UA he ThA ee ANE Nya et femme DNA Ne ae LAN OP hy Na Time ns mi M W INN The Hilbert Filter application result a initial profile b processed profile 60 Tools Migration Migration1 Migration1 Migration Migration f Apply IY Apply AS Add M Cancel rs Add XM Restore The Migration configuration window contains the following items tool name by default The tool name can be edited The Migration is tool for restoration of the location and shape of local objects The Migration tool works correctly when properly configured speed of the wave See Hyperbola Function on page 36 MCTaHUHA m MCTaHUHA m Bpena HC Bpena HC a b The Migration application result a initial profile b processed profile 61 Specifications Specifications Model of GPR VIY3 125 Antenna me I frequency MHz ADC bits Dynamic range at least 135 gb VIY3 300 VIY3 500 VIY3 700 Data acquisition up to 146 traces per second rate 240 360 120 180 240 166 100 133 32 50 64 116 24 32 40 480 600 300 166 80 Samples per up to 1000 trace Survey window 3 Q Trace Stacking up
26. B3 125 AB 300 AB3 500 AB3 700 or Battery Box and notebook Supplied with VIY3 125 VIY3 300 VIY3 500 and VIY3 700 Cable 3 m length to transfer data between AB3 125 AB 300 AB3 500 AB3 700 or Battery Box and notebook Cable 3 m length to transfer data between AB 500 AB3 700 and Battery Box Supplied with VIY3 500 and VIY3 700 Cable 1 m length to transfer data between AB 500 AB3 700 and Battery Box when GPR is installed on Cart 36 or Cart 6 Charger for lead acid batteries Supplied with VIY3 125 VIY3 300 VIY3 500 and VIY3 700 Handcart for sounding with VIY3 300 VIY3 500 and VIY3 700 Synchro3 General Information Vehicle cart for sounding with VIY3 300 VIY3 500 and VIY3 700 Transport belt to move the antenna unit by operator during the sounding without carts Supplied with VIY3 125 VIY3 300 VIY3 500 and VIY3 700 Software package to control VIY3 series GPR As well as for processing and visualization of acquired data General Information Components Description GPR consists of antenna unit connected to computer notebook via USB Operator controls antenna unit by the Synchro3 program It adjusts antenna unit checks state of its battery makes sounding Acquired data are stored in computer memory and can be displayed on the screen as GPR profile Data processing is also executed by Synchro3 program AB3 070 Antennas Units VIY3 070 Ground penetrating radar consist of two
27. Charger Charger for the battery D Cable 3 Data cable 3 meters length TB 3 Transport belt User Manual v Notebook is not included in the package contents and has to be purchased separately VIY3 500 GPR The package of VIY3 500 GPR includes AB3 500 500 MHz frequency antenna unit with digital output Battery Box External box for the battery Charger Charger for the battery D Cable 3 Data cable 3 meters length DP Cable 3 Cable to connect AB3 700 with Battery Box 3 meters length e TB 3 Transport belt User Manual v Notebook is not included in the package contents and has to be purchased separately General Information VIY3 700 GPR The package of VIY3 700i GPR includes e AB3 700 700 MHz frequency antenna unit Battery Box External box for the battery Charger Charger for the battery D Cable 3 Data cable 3 meters length DP Cable 3 Cable to connect AB3 700i with Battery Box 3 meters length e TB 3 Transport belt e User Manual v Notebook is not included in the package contents and has be purchased separately Order information Series title Central Built in built in WiFi requency MHz inclinometers channel Additionally VIY3 series GPR can be supplied with equipment listed below v Content of available equipment and accessories can be varied Check completeness information with your dealer or manufacturer List of Equipment and Accessories
28. DATA socket 11 General Information VO 20 Measuring Wheel All antenna units are adapted for use with VO 20 measuring wheel It is fixed to the antenna unit with two screws without using any tools Measuring wheel is connected to AB3 700 or AB3 700i antenna unit via A 700 adapter The adapter is also fixed with two screws without special tools Cart 36 n Cart 6 AB3 300 AB3 300i AB3 700 and AB3 700i are able to be mounted to both Cart 36 handcart and Cart 6 vehicle cart To fix AB3 300 or AB3 300i antenna unit the same components as for measuring wheel mounting are used AB3 700 or AB3 700i antenna unit is arranged in the center of the cart Battery box is fixed to rear wall of the cart The cart has built in measuring wheel that is connected to ADD socket of antenna unit Example of mounting an antenna unit to cart is shown below 12 General Information Software Description Computer Requirements The system requirements for the Synchro3 software are e Windows XP Windows 7 e Pentium M with frequency more than 1500 MHz e Memory at least 512 MB e Port USB2 0 e Atleast 100MB free space on hard drive Terms and Definitions The User Manual uses the following terms and definitions Profile a two dimensional Distance m image in the coordinates of depth vertical and traveled distance horizontal Profile consists of a set of traces Amplitude of the traces of the profile is displayed by color
29. IS ALL OTHER WARRANTIES AND REPRESENTATIONS ORAL OR WRITTEN EXPRESS OR IMPLIED INCLUDING BUT NOT LIMITED TO ANY IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS FORA PARTICULAR PURPOSE ARE EXCLUDED AND DO NOT APPLY THERE ARE NO WARRANTIES WICH EXTEND BEYOND THE DESCRIPTION OF THE FACE HEREOF Except as required by law no representative agent or employee Transient Technologies is authorized to make warranties representations or obligations inconsistent with or in addition to those set forth in this limited warranty TRANSIENT TECHNOLOGIES DOES NOT WARRANT FOR THE CONTENTS AND SERVICES OTHER SITES WHICH YOU MAY ACCESS FROM HYPERLINKS ON TRANSIENT TECHNOLOGIES WEBSITES TRANSIENT TECHNOLOGIES INSTALLATION CD OR ANY MATERIAL No Damages IN NO EVENT WILL TRANSIENT TECHNOLOGIES BE LIABLE FOR DIRECT INDIRECT SPECIAL INCIDENTIAL OR CONSEQUENTIAL DAMAGES RESULTING FROM ANY BREACH OF WARRANTY OR UNDER ANY OTHER THEORY even if advised of the possibility of such damages In event Transient Technologies be liable for sums in excess of the purchase price of the product Transient Technologies is thus not liable for lost profits or goodwill downtime damage or destruction of any program data equipment or other property cost of recovering reprogramming or reproducing any program data or equipment personal injury or loss or any other damages General This agreement is the entire agreement between you and 64 Limited Wa
30. Punbtp Munb epra Murpauus Onucauue 2D PunbTp Murpauus BOCCTAHOBNEHHE MECTONONOKEHHA H POPMbI AOKANbHbIx O BEKTOB A Npumenure punetp XX OrmeHure Edit Tool Settings To edit the tool settings do one of the following e Select desired tool from tools tree and click Properties button of the Tools tab of the Profile window e Right click on the desired tool and select Properties from the context menu Dialog box for tool settings will appear For details see description of appropriate tool in the References section 44 Profile Processing Change the Order of Tools Tools in the Tools area are arranged in a list tools tree Tools apply to profile sequentially from top to bottom To change order of tools do the following e Move cursor over the tool name and left click e While holding the button move the cursor around the tools tree Appears grey horizontal line which shows the filter location in future e Move the line to desired location and release the mouse button As soon as you change the order of tools profile will be processed in a new sequence and results will be displayed in real time Remove Tool To delete tool from the tools tree do one of the following e Select desired tool from tools tree and click Remove button of the Tools tab of the Profile window e Right click on the desired tool and select Remove from the context menu e Select desired tool from tools tree and push Delete button on
31. Select File gt Save in the Main program menu e Press Ctrl S When you first save the document Save GPR Files dialog box appears Later when saving document to be used selected path and file name Select Save As if you want to save the file with a different name 35 Profile Display Profile Display Open Profile To open acquired profile do one of the following e Click button on toolbar pannel e Select File gt Open from Main program menu e Press Ctrl 0 The profile appears in Profile window Further processing is carried out by apply some tools to the profile The result is displayed in real time Software from Transient Technologies supports compatibility with previous versions of the program and data storage formats That is the program older versions can work with data obtained from the program later versions and vice versa Data storage is in the format of the current version It should be understood that the previous version of the program by opening the file later do not read that part of the data or settings which appeared in more recent versions If you save the file by the program earlier version this part of the data will be lost The latest version of the Synchro3 software is always available on the Transient Technologies Web site www viy ua Wave Speed Editing Velocity of electromagnetic waves in the medium being sounded is not known beforehand Therefore before the data acquisition set
32. TRANSIENT EE ke EEE EE Ground Pehetrating Radar User Manual Series 3 Software version 3 7 3 2 Transient Technologies 2004 2014 Transient Technologies LLC office 604 13 Maryny Raskovoi str Kyiv Ukraine Tel 380 50 4628594 E mail info viy ua VIY registered trade mark owned by Transient Technologies LLC Figures and illustrations in this User Manual are provided for reference only and may differ from actual product appearance Product design and specification may be changed without notice Contents General Information cccsccesseeeeeeeeeeeeeeseneeeenesenenes 5 VIY3 GPR Application cicccccccciticcscccieccnsee ee cnsenseesseeeeeesues 5 Applications of VIY3 series GPRi rrrrrnrrnnnnrnnrannrnrnnnennnn 5 Completeness of Delivery nrrrnnnnnnnnnnnnnnvrnnnnnnvernnnnnenenn 6 VISO 70 OPR eae nnn eet eae ee eee ener eae ere 6 VIY 9 429 GP RR ecra A a a 6 bd be ss 0102 GP R eena eee eae ee eee 6 VIST GPR eee 6 VP 7 List of Equipment and Accessories rrrrrrrrrnnrrrrrnnnrnnnnre F Components Description arnxrnnnnnnnnnnnnnnnnnnnnnnnnnnnnennnnner 10 AB3 070 Antennas Units rrrerernnrornnrrrnnrrnnrrnnnrrnnnnnnnnnn 10 AB3 125 Antenna Units rrrrarernnrrrnnrnrnnrrnnrrnnnrennnnnnnnnnn 10 AB3 300 Antenna Units r rrarornrnrranrnvnnrnnnnrnnnnrnnnnnnnnnnn 11 PN 11 AB3 700 Antenna Units rrrrarrnnnnrvnnrnvnnrnnnnrnnnnrnnnnnnnnnnn 11 VO 20 Measuring W
33. a GPR using Wi Fi router rrrrrrnnrrrernnn 31 GPR Settings rnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnernnnnnnnnnnnnnenennn 32 Data ACQUISITION rrnnnnrnnnnnnnnvnnnnrnnnnnnnnnnnnnennnnnnnnnnnnnnnnnnunen 33 How to Move the Antenna Unit rarrnranannnrennnrrnnnnnnnnnnn 33 Zero Distance Scale rrrrrrrnnnrnrannrnrannrnrannnnvannrnvannnnnnn 33 Speed of Movement of the Antenna Unit 33 Maximum Speed of Data ACqQuiSition ccccccceeeeees 35 Save the Results rrrrarrrrranrrrrannrnrnnnennnnnennnnnrnnnnnrnnnnnen 35 Profile DEP Lure 36 Open Profil sssini 36 Wave Speed Edgar 36 Hyperbola FUNGON EN NE 36 Comments 0 1g 2 eee eect eet kene ere eee ee ee ete 37 Change Movement Direction During the Data Acquisition 37 ZOOMING EEE NE 37 Set Up ProportionS sre scrcccssct coscisscaseoceesenceeelechesseecteetea eats 38 Grid Display eer eemeeee eons eee mete rennara enero ne ene or cence eee 38 Set Zero Level r rrrrrnnrrrnnnrrornnnnornnnnonnnnrrnnanrnnnanennnnsnen 38 Markers Display and EGitting ccccceseeeeeeeeeeeeeeees 38 Display Single Trace ccccccsssseecesesseeecceseeeeseeseeeesees 39 Topographic Correction ua 39 ETP PE 40 El 40 2 EEE EE 42 Profile Processing uauunvuusmvun unsmnsbnmsskeivum bn 43 Profile Processing Algorithm rrnnnnnnnnnnnnnnnnnnnnnnnnnnnevennn 43 PN ee 44 Edit Tool Settings er 44 Change the Order of Tools
34. and asbestos cement pipes underground places of flood water and petroleum groundwater levels and water resistant layers for investigating of structures and boat walls etc Applications of VIY3 series GPR VIY3 070 VIY3 070i VIY3 070w VIY3 070iw e KaptupoBaHWwe NPUNOBeEpXHOCTHbIX FEONOrMYeCKUX CTPYKTYP e KapTupoBaHie ypoBHA FPYHTOBBbIX BOD e OnpegeneHue TONLINHbI NEAAHOTO NOKPOBA e OnpegeneHue MOLIHOCTU BOAHOrO CNOA Nn KaPTUPOBAHVE HOHHbIX OTHOXEHNN e OnpegeneHue 30H ce30HHOro NpoMep3aHUg BEYHHOU MEP3NOTbI VIY3 125 VIY3 125i VIY3 125w VIY3 125iw e Mapping subsurface geological structures e Mapping of groundwater levels e Thickness determination of the ice cover e Determination of the power of the water layer and sediments mapping e Determination of areas of seasonal freezing and permafrost VIY3 300 VIY3 300i VIY3 300w VIY3 300iw e Search for local facilities pipelines cables e A survey of engineering structures building foundations basements etc e Search for buried waste and graves e Location of underground excavations karst and suffusion failures e Determination of boundaries of petroleum contamination VIY3 500 VIY3 500i VIY3 500w VIY3 500iw e Search for local facilities pipelines cables e A survey of engineering structures building foundations basements etc e Search for buried waste and graves e Location of underground excavations karst and suffusion failu
35. asing the speed limit Maximum Speed of Data Acquisition At the maximum speed of data acquisition more than 60 traces per second it can occur loss of acquired data with insufficient computer performance In this case after stopping the sounding the following message appears Due to the lack of computer performance in the current profile of the data was lost Change the setting of GPR and repeat the sounding Make sure that there are no any running programs consuming resources of your computer If there is no any running programs except Synchro3 to prevent data loss change the GPR settings to reduce speed of data acquisition by increasing Trace Stacking and or Number of Samples Save the Results When you save the profile to the specified folder on your computer there are two files with the extensions sgpr and tls File with the sgpr extension contains all information about the GPR model its settings step of measuring wheel and so on In the same file unaltered acquired data are stored File with the tls extension contains information about the list of tools applied to profile processing their configuration and usage Such a way processed data are stored in two files with a common name but different extensions No operator actions can permanently damage the data To display the original profile enough to cancel or delete all used tools To save acquired data do one of the following e Click Save button e
36. at the same speed in this mode The GPR settings determine the data acquisition rate See the table 33 Getting Started jee a The speed of the antenna unit movement is calculated as follow v d f where v Speed of movement in meters per second d Distance between the traces in meters f Number of traces per second For example if you need to get 10 cm distance between traces and select Number of Samples as 500 and Trace Stacking as 5 the speed will be v 0 1 14 52 1 452 1 5 m s In the third mode Ext data acquisition is triggered by external device If you select measuring wheel sounding of the next trace is only started when signal from the wheel is received Step of wheel is configured in the GPR Settings window If you select GPS receiver start of the next trace is when a message from the GPS receiver is received GPS receiver is configured in the GPR Settings window v Do not exceed the permissible speed of the antenna unit This will lead to a deterioration of GPR data 34 Getting Started If in Ext mode the antenna unit will move faster than permissible speed the notebook speaker will beep It means that soeed of movement must be reduced The value of the maximum speed of the antenna unit depends on several settings of GPR Setting Setting value increase results Number of Samples reducing the speed limit Trace Stacking reducing the speed limit Step of acquisition incre
37. button to increase the parameter to 1 down to decrease If holding down the Shift key up down keyboard button increase decrease the parameter by 10 The Blur application result a initial profile b processed profile 48 Tools Comparator Comparator Comparatorl Comparator Comparatorl f Apple f Apply Threshold 1 mas 57 385 Threshold 61410 mas 7 57 385 T y ves x Restore The Comparator configuration window contains the following items Edit Box This field specifies tool name Initially the field contains tool name by default The tool name can be edited Apply The tool is activated when is checked Threshold Threshold adjustment Fits slider Add Addtool o The Comparator resets to zero trace samples the absolute value are below than specified threshold It removes weak signals and noise leaving on the profile contrast signals only EE y Add X Cancel a b The Comparator application result a initial profile b processed profile 49 Tools Nonlinear Amplifier Nonlinear Amplifier Nonlinear Amplifier IV Apply IV Apply Compress Coefficient 200 Compress Coefficient p00 5 5 4 S oO Oo Input Input X Cancel A Yes X Restore The Nonlinear Amplifier configuration window contains the following items Edit Box This field specifies tool name Initially the field contains tool name by default The tool name ca
38. commands are duplicated in toolbar under the Main program menu For the convenience of field work buttons of increased size are available CoH k or File Profle Acquisition Preferences Window Help Be 30 14 General Information Status Bar Status bar locates at the bottom of the Main Window It displays model name of connected GPR communication channel USB or WiFi and battery charge condition eS GPR VIY3 300i Cursor coordinates X I Y Display cursor coordinates on the profile The horizontal coordinate X distance from starting point is presented in trace number and distance of the route if odometer or GPS are presented The vertical coordinate Y depth is presented in time and distance Depth is calculated taking into account the initial bias of zero on the basis of wave speed in the medium specified in the GPR Settings window File Menu cn Tre File menu are intended for file manipulation of GPR Create Ctrl4N gt Open Ctrl 0 profiles It contains nine items mit Create lt Ctrl N gt Create new profile Open lt Ctrl 0 gt Open saved profile Open Recent Quickly open the profile Contains the last saved profiles up to 16 Close lt Ctrl F4 gt Close active profile Save lt Ctrl 5 gt Save profile with the current file name Save As Save profile with display dialog box that allows to specify file name and its location Export Export profile to graphic
39. eciphering the profile Comments in the field are usually written in abbreviated form Later in a comfortable environment they may be edited To edit comments tab in the Profile Properties of the Profile window and make any necessary changes in Comments field Change Movement Direction During the Data Acquisition A lot of parallel profiles are easier to perform with Zig zag style see page 21 With this method of sounding odd profiles are acquired with Forward option and even profiles with Backward option N3MeHnTb HanpaBneHue OBYXKEHUA MOXHO B OKHE HacTpo kn reopanapa nepen HaYaroM 30HANPOBaHNEeg na nepeBopota npodunsa BOKPYT BEPTUKANbHOM OCU HEOOXOAMMO HaxXaTb KHONKY 43 Orpasurb ropuaoHTanbHO B 3aKnagke Buy OKHa npognna 8 BRERSSBERSRSSRSSREREERERE Besssesssys Sueeeseeeess 0 0 10 15 20 25 30 fa 35 40 45 50 55 13 z 70 75 80 85 90 sp 100 105 Display the Cursor Position During the GPR profile analysis there is a need to determine coordinates of objects To do this move cursor to the object IntheX Y section of the toolbar displays the cursor coordinates X distance on the surface of the starting point Y the depth of the object The distance X is represented in the numbers of traces as well as in meters when using a topographic location for example measuring wheel The depth Y is represented in time ns from the beginning of the Survey window and in meters from the zero level ta
40. eel Configuration of external devices is executed in General Preferences window To start or stop the data acquisition press Start Stop button of the Main program window or F2 on your computer Acquired data from GPR will only come after the measuring wheel rotation or availability of data from GPS You can add marker tags during the sounding process To add a tag press Space button on your computer Zero Distance Scale Creating several parallel GPR profiles there is a need to set the mutual arrangement of profiles For this reason there is a Displacement of profile in the window of settings Displacement along the course displacement of the beginning of profile in the in plane profile regarding the system of coordinates can be set in the Settings window previously measured the distance with a tape line However there is more convenient way to set the displacement along the course While moving the antenna and sounding the ground with a VO 20 measuring wheel or the GPR trolley Cart 36 one needs to press the button on the toolbar or press Ins on the keyboard Speed of Movement of the Antenna Unit In a single run mode Single speed and way of the antenna unit movement are not important because the GPR waits for Start command after a single trace acquisition In the self starting mode Int the data acquisition rate is determined by the GPR settings and are as fast as possible It is important to move the antenna unit evenly and
41. er click Browse and select another Folder Click Install to start the installation C Program Files Transient Technologies Browse Space required 33 5MB Space available 7 3GB Folder Transient Technologies ca e Click Install e Click Finish in the next dialog box l Smart GPR VIY3 Setup lol xj Completing the Smart GPR VIY3 Setup Wizard Smart GPR VIY3 has been installed on your computer Click Finish to close this wizard Driver Installation 20 Getting Started Connect data cable D Cable 3 to the DATA socket on the antenna unit the second cable connector insert into the USB socket of your computer Computer screen displays a message fl Installing device driver software 4 Click here for status a EN VIY3 Ground Penetrating Radar COM14 Xx Recyde Bin AG Device driver software installed successfully EN 714 I 7 Ge cp 18 49 ME If you click on this message you will see the following window Driver Software Installation x VIY3 Ground Penetrating Radar COM14 installed VIY3 Ground Penetrating Radar COM14 of Ready to use The driver has been successfully installed Site Preparation Before the sounding polygon should be cleared from large interfered objects Data acquisition is carried out by straight movement of GPR on the surface T one non rectilinear two profiles profile At the same time permanent GPR c
42. fying a numerical value in the boxes Input box accepts only numbers as well as pressing the up down keyboard buttons Use up keyboard button to increase the parameter to 0 1 down to decrease If holding down the Shift key up down keyboard button increase decrease the parameter by 1 Pea Ny BA P ON A Ek pp NAN Sy MP EA a Ep CA A TE WAA J e yA ee NTS i i Y The Wavelet Filter application result a initial profile b processed profile 58 Tools Windowed Background Removal Windowed Background Removall f Apply Width of Window traces 300 Windowed Background Removall Windowed Background Remowall f Apply Width of Window traces fi 2 Add x Cancel Ti YEs x Restore The Windowed Background Removal configuration window contains the following items Edit Box This field specifies tool name Initially the field contains tool name by default The tool name can be edited Apply The tool is activated when is checked Width of Adjust width of the window for calculation of average Window trace Fits slider or in the field The Windowed Background Removal subtracts averaged trace from each trace of the profile Width of the window for averaging is specified by traces value from 1 to the total The tool removes from the profile horizontal lines The tool sensitivity is determined by Width of Window parameter The smaller the value
43. g by Hand tool Flip Horizontal Command reverses the profile horizontally that is from left to right Topographic correction This function is available for profile obtained by antenna unit with built in inclinometers and with measuring wheel The topographic correction transforms the surface profile taking into account tilt of antenna unit during the data acquisition See page 39 for details Tools Tab Tools tab provides tools for profile post processing Profile processing is performed by successive application of tools placing in the tools tree The order of tools in the tree can be changed arbitrary Number of similar tools in use is indefinitely List of tools is stored in a separate file Initial GPR profile remains unchanged Multiply copies of the same profile can be Fi Add processed by different sets of tools 3 Remove Tools BA Properties Add Add a tool from the proposed eeo list of tools Sets of Tools Remove Delete tool from the tools X Clear Set er Ly Save Set Properties Edit settings of tool from the tools tree x Execute All Force execution of set of tools placed in the tools tree Set of Tools Clear Set Delete tools tree Save Set Save tool tree as set of tools in separate file Select set of tool from drop down list of sets saved before Wavelet Filter Gaim IR Band Pass Filter wy Windowed Background Remo 18 General Information Palettes Tab Palet
44. g Started Connection of Antenna Unit to Laptop Connect antenna unit to USB port on your computer with cable D Cable 3 Insert the cable connector to DATA socket on a cover of antenna unit At the same time the GPR power is switched on Connection of AB3 500 or AB3 700 to USB connector of the laptop 25 Getting Started Connection VO 20 Measuring Wheel Fasten measuring wheel to rear side of antenna unit by screws Insert the cable connector to ADD socket on a cover of antenna unit Connection of VO 20 measuring wheel to AB3 125 or AB3 125i ADD socket Connection of VO 20 measuring wheel to AB3 300 ADD socket Connection of VO 20 measuring wheel to AB3 500 and AB3 700 ADD socket 26 Getting Started If antenna unit is placed in Cart 36 handcart or Cart 6 vehicle cart insert cable connector of the cart s movement sensor to ADD socket AB3 300 or AB3 300i Placement of AB3 300 into Cart 36 and Cart 6 AB3 700 or AB3 700i Battery Box Placement of AB3 500 and AB3 700 into Cart 36 n Cart 6 Adjustment of Measuring Wheel When using measuring wheel step of wheel should be specified Select Preferences gt General Preferences in Main menu Click the Wheel option in the Topo Device area Specify Step of wheel Label with step value is on the measuring wheel Connecting of External GPS NMEI device To connect external NMEI device GPS for example it is necessary to use PTRS pigtail
45. gt Save Settings in the menu of the GPR Settings window To use previously saved settings select File gt Open Settings in the menu of the GPR Settings window Data Acquisition After closing the GPR Settings window click button in the tool bar or select Acquisition gt Start in the Main program menu How to Move the Antenna Unit Data acquisition can be carried out in three modes single run self starting and triggering by external device For the single run mode Single mark the site previously Then the antenna unit is installed on all points of sounding alternately in which the single trace is acquired To start the data acquisition press Start button of the Main program window or F2 on your computer For the self starting mode Int data acquisition is proceeded as quickly as possible In this mode the antenna unit should move evenly over the surface of the site To start or stop the data acquisition press Start Stop button of the Main program window or F2 on your computer You can add marker tags during the sounding process To add a tag press Space button on your computer For the third mode Ext data acquisition are triggered by external device of topographic location measuring wheel GPS or any device transmitting data through the COM port in NMEI similar format Therefore connect and configure an external device of topographic location before the data acquisition If you apply measuring wheel enter the Step of wh
46. heel rannrrnnrnnnnrnnrnnnrnnnnnnnnrnvnnnnnnn 12 Cart 36 n Cart 6 rrerrronrrorrrnnrvvrrrnnnrorvnnnrovnrnnnneenrrnsnnnnnnnn 12 Software Descriptionuuaranasnmusudanisnuenmmnsnnissinjn 13 Computer Requirements cccccsseseccseeeeseseeeseeeees 13 Terms and Definitions rrrrarrrrranrrrrnnnernnnnennnnnrnnnnnen 13 Main Window aseroronnroranonanonnnennnenarennnennnennnennnenunennnenner 14 Main Program MENU cic icucccsnreocasaccassectesunnsesvecsneaceaseccascsens 14 Profile Window rrrrannnornnnnornnnnonnnnnnnnnnvnnnnnnnnnnnnnnnnnennnnne 16 Getting Started rrrnnnannnnnnnnnnnnnnnnnnnnnnnnevnnnnnnnnnnnennnnnuern 20 Software Install t10n u uuvvvv1manmmiarsnmi ndntd 20 Driver sog EE EAEAN iin 20 Site Preparation rnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnennnnner 21 GPR Preparation annnannnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnennnnnennnnner 23 Connection of VIY3 70 Antennas Units rrrrrnrerrnnrrn 23 Connection of Antenna Unit to Laptop rrrrrrrnrerrnnrrr 25 Connection VO 20 Measuring Wheel 0ccceeeeees 26 Adjustment of Measuring Wheel rrrrrnnrnrnnnnnrnrnvnnnnnnn 27 Connecting of External GPS NMEI device 27 Use of Built in Inclinometers cccceccceseeeeeeeeeeeaeees 28 Inclinometers Calibration rrnnnnrrnnnnrnnannrnrannnnnannrnnnn 28 Connecting GPR through WiFlu asmimsisessidnstenesmeiste 29 Connecting to
47. i A Wave speed m ps right area displays the m aa rofile The left area p f j Hyperbola Forward contains four tabs for ss working with the profile Distance m REESE 2 SATSE u ydag Time ns t a ol Poa u a V sate of oe en PL AT d Pl i mL EE aw had e RA OY Ba ag 16 Profile Properties Tab The tab displays settings of GPR Settings window In the saved files are allowed to make changes without affecting the sounding process There are medium wave speed comments and movement direction View Tab View tab provides capabilities to control and visualize the profile Zoom Scale the profile from drop down list Scale options are the following Fit Width Change the scale so that profile and window width are equal Fit Height Change the scale so that profile and window height are equal 12 25 50 75 Scale proportionally reduction of current profile 100 Restore initial scale of current profile 200 300 400 Scale proportionally increase of current profile Zoom In Scale smoothly increase of current profile General Information Format Version Window Width Samples stacking Trigger Mode Shift of Zero wer Topo Device p step of Measure Trace Numbers Distance Hyperbola Comments VG S001 37 fam 133 25 ns 500 Ext 0 43 m O 20 123 76 mm 199 24 63 m Forward 2 Dor CQ Zoom
48. king into account wave speed in the medium If the zero level offset is absent the depth value in time and distance are the same Zooming Scale of the just opened profile is Zoom In 100 that is one pixel of the screen f Out corresponds to a waveform sample Q Zoom Out 2 To zoom do one of the following e Select Profile gt Zoom In or Profile gt Zoom Out in the Main menu program e Click Zoom In or Zoom Out button in the Zoom frame of the View tab of the Profile window e Select required scale from the drop down list of Zoom frame of the View tab of the Profile window or enter scale to the field and press Enter e Press or button of grey keyboard area e Point cursor on the profile left click and zoom by mouse wheel 37 Profile Display Set Up Proportions Aspect ratio of the profile in the horizontal and vertical dimensions may vary within wide limits One Samples 1 1 LES 1 5 Distance 11 1 2 screen element pixel displays a a a al sample of the vertical and one trace of the horizontal Therefore if the trace consists of 300 samples and the profile is made up of 300 traces the profile will be displayed in a square When you scale vertical and horizontal proportions are kept However there are cases when such mapping is not convenient For example if your profile contains 100 traces In this case it is useful disproportionate change of scale Proportion AY
49. n be edited Apply The tool is activated when is checked Compress Adjusts the amount of dynamic range compression of Coefficient the signal Improves the profile contrast Fits slider or in the field The Nonlinear Amplifier increases weak and suppresses strong signals compressing dynamic range of the profile The tool makes visible weak signals while maintaining contrast of the profile Changing the setting can be done using the slider or by specifying a numerical value in the box Input box accepts only numbers as well as pressing the up down keyboard buttons Use up keyboard button to increase the parameter to 1 down to decrease If holding down the Shift key up down keyboard button increase decrease the parameter by 10 The Nonlinear Amplifier application result a initial profile b processed profile 50 Tools Three Point Correlator Three Point Correlata Three Point Correlata f Apply l Apply Vertical Base 5 samples Vertical Base fe samples Three Point Correlatori i Mode 1 Mode 1 rd Mode 2 sele Mode 2 nf Yes M Restore The Three Point Correlator configuration window contains the following items Edit Box This field specifies tool name Initially the field contains tool name by default The tool name can be edited Apply The tool is activated when is checked Vertical Base Adjust the distance between elements of a discrete function Fits slider or in the field
50. nit has to do complete turnover Then push Calibrate button once again to finish the calibration N Make sure that Quality of calibration value is within acceptable limits Otherwise repeat the calibration Then follow the second and third stages of the tilt sensor calibration Select a flat solid surface of sufficient size with any angle to the horizon Place the antenna unit on the surface in one direction then click Step2 In a few seconds the button is switched off Zero Step 2 Step 3 i fa Turn the antenna unit to opposite direction then click Step3 In a few seconds the button is swithced off The calibration is finished 28 Getting Started Charge the Internal Battery Antenna unit is equipped with sealed lead acid rechargeable battery 12 V 7 Ah Power supply of the antenna unit prevents deep discharge of the battery Battery charge status is indicated in the Status bar of the Main window of the Synchro3 software When the battery voltage approaches the critical value the power supply begins to beep If the voltage decreases below the cut off threshold 10 8V the power supply disconnects the antenna unit but it is continuing to beep twice per second It indicates about serviceability of the GPR and the need to charge the battery To charge the internal battery use charger included in the GPR package Put the charger connector t
51. o DATA socket of antenna unit and then plug the charger to AC power 220 240 VAC 50 60 Hz To get more information see the charger s instruction To replace the battery unscrew four crews of the battery cover make a change fasten the cover again v Follow polarity of the battery red wire connect to positive terminal black wire connect to negative terminal Connecting GPR through WiFi The versions of antenna units that have letter W in the name of a GPR they will have a built in WiFi VIY GPRs provide the connection ony om to a computer by using two different methods a which are direct connection and the connection 2y through WiFi router uno PR SSID fvyryanET To use a GPR with WiFi one needs connect the GPR to a computer with a USB cable In the Password VIY3PASS main menu of Synchro3 program go to Settings Channel f5 gt General Settings To manage WiFi connection gon jp fiaz fies fo p o to the WiFi frame mask 255 255 f f First Connetion with GPR GPR Port 2000 Switch on the GPR by connecting a Data Save connector to the terminator that goes with the apparatus WiFi Press Start and go to Network and Sharing Centre Afterwards go to Change Adapter Settings in the popped up window Click the right button on the Wireless Network Connection Choose Properties in the dropdown menu Wireless Network Connection Status window will appear 29 Getting Started Do
52. olding down the Shift key up down keyboard button increase decrease the parameter by 10 51 Tools rm EE EE 5 JE Le 7 ET EA ee ee hr bas ne JD gt PETE I The Three Point Correlator application results a c initial profile b processed profile Mode 1 d processed profile Mode 2 52 Tools Low Pass Filter High Pass Filter LPF HPF1 ME LPF HPF 7 Apply Filter Type a Low Fass Filter Filter Type Dey Low Pass Filter High Pass Filter Frequency MHz 300 Frequency MHz 450 Range fi Range E oun High Pass Filter Dutput Filter 02 03 04 05 05 OF Frequency GHz 02 03 04 05 05 OF Frequency GHz The LPF HPF configuration window contains the following items Edit Box This field specifies tool name Initially the field contains tool name by default The tool name can be edited Apply The tool is activated when is checked Filter Type Select type of the filter low pass filter LPF or high pass filter HPF Adjust cutoff frequency of the filter Fits slider or in the field Range Adjust slope attenuation of the filter The slope increases with the range change from 1 to 8 Fits slider or in the field d The Low Pass Filter LPF passes frequencies below the cutoff frequency Frequency value and suppresses frequencies above it The suppression in determined by Range value The High Pass Filter HPF passes frequencies above the cu
53. ontact with the surface is desirable If the data acquisition is performed without equipment for topographic location GPS measuring wheel you have to pre mark the site for manual tag topographic location installed by operator GPR in this case should be moved along the surface evenly If you plan implementation of 3D survey you have to pre mark the site The distance between adjacent profiles should no more than a half of required dimensions of the underground facility The sounding is carried out preferably with measuring wheel This will allow to use Slicer 21 Getting Started software for horizontal cuts C scan O Y2 size of target Parallel profiles are easier to perform with Zig zag style It is necessary to use Direction option Forward Backward Forward Backward everywhere Direction Forward If the ground is rugged terrain choose a point wise operation of GPR In the case the device is placed at a point make a single data acquisition then move to the next point sound again and so on 22 Getting Started GPR Preparation Connection of VIY3 70 Antennas Units The following shows the procedure for connection of antenna units Fror to Tx 23 Getting Started Tl From Odometer From Rx Synchro to to Rx ADD Tx Synchro ri q E J SS ee OUHDNAS rom Odometer to Rx ADD Rx Data to laptop USB port 24 Gettin
54. res e Archaeological research e Determination of boundaries of petroleum contamination s VIY3 700 VIY3 700i VIY3 700w VIY3 700iw e Search for hidden breaches in the walls of terrestrial plants mines tunnels towers and floors e Search for violations in the construction of roads runways e Archaeological research e Search for voids hiding places foreign inclusions General Information Completeness of Delivery VIY3 series GPR come in several set of items The package depends on the tasks which should be executed with the GPR VIY3 070 GPR The package of VIY3 070 GPR includes AB3 070t 70 MHz frequency transmitter unit with built in battery AB3 070r 70 MHz frequency receiver unit with digital output and built in battery Charger Charger for the battery D Cable 6 Data cable 6 meters length TB 3 Transport belt v Notebook is not included in the package contents and has to be purchased separately VIY3 125 GPR The package of VIY3 125 GPR includes AB3 125 125 MHz frequency antenna unit with digital output and built in battery Charger Charger for the battery D Cable 3 Data cable 3 meters length TB 3 Transport belt User Manual v Notebook is not included in the package contents and has to be purchased separately VIY3 300 GPR The package of VIY3 300 GPR includes AB3 300 300 MHz frequency antenna unit with digital output and built in battery
55. resented on the filter configuration window Results of the filter operation are displayed in real time The BPF BSF is used to adjust the spectral composition of the profile for example to suppress certain types of reverb etc 55 Tools Changing the setting can be done using the sliders or by specifying a numerical value in the boxes Input box accepts only numbers as well as pressing the up down keyboard buttons Use up keyboard button to increase the parameter to 1 down to decrease If holding down the Shift key up down keyboard button increase decrease the parameter by 10 a b C The BPF BSF application results a initial profile b BPF processed profile c BSF processed profile 56 Tools Gain Gaim IV Apply bam SCS gei i Gain dB 80 60 40 20 0 20 40 60 80 Gain dB 80 60 40 20 0 20 40 60 80 nul X Cancel 10 Nul X Restore The Gain configuration window contains the following items Edit Box This field specifies tool name Initially the field contains tool name by default The tool name can be edited Apply The tool is activated when is checked ia ala intermediate nodes Apply tool after options editing Restore the last saved tool configuration The tool graphically sets the gain of the trace in depth in the range from 80dB to 80dB Initial gain curve has two node points moved to the top and bottom of the window respectively Movement of
56. rranty Transient Technologies supersedes any prior or different agreements representations or proposals and may be changed only by written agreement with Transient Technologies Waiver by any default or breach of this agreement will not constitute a waiver of any subsequent default or breach of the same or different kind The invalidity of any provision of this agreement shall not affect the validity of the other provisions hereof 65 Index Symbols bmp 41 dat 41 sgpr 35 sgpr 41 tls 35 A A 700 8 AB3 125 7 10 AB3 300 7 11 12 AB3 700 7 11 12 ADD sockets 10 11 Antenna frequency 62 B Battery Box 8 bitmap 41 Blur 43 48 C Cart 6 9 12 Cart 36 8 12 Charger 8 Comparator 43 49 C scan 22 D DATA sockets 10 11 D Cable 3 8 25 D Cable 6 8 DP Cable 11 DP Cable 1 8 DP Cable 3 8 Driver Installation 20 Dynamic range 62 E Export 40 Ext 33 34 35 EXT sockets 11 G Gain 43 57 GPS 33 34 H Hilbert Transform 43 46 Int 33 L LPF HPF Filter 43 53 M Measuring Wheel 12 Model of GPR 62 N NMEI 33 Nonlinear Amplifier 43 50 P Profile 13 Profile properties 13 R Rectifier 43 53 S Sample 13 Samples per trace 62 Single 33 Software Installation 20 Spatial resolution 62 Specifications 13 Speed of Movement 33 Status Bar 15 Synchro3 9 T TB 3 9 text 41 Three Point Correlator 43 51 Tool 13 Trace Stacking 62 V VIY3 125 6 7 VIY3 300 6 VIY3 700 7 VO 20 8 1
57. t move horizontally Some antenna unit equipped with built in inclinometers that allows to consider antenna unit orientation during the data acquisition There are AB3 700i AB3 300i and AB3 125i VIY3 700i VIY3 300i and VIY3 125i packages The Topographic correction button is available if data acquisition was made with measuring wheel When you press the button the program calculates zero level of the profile taking into account surface curvature based on antenna tilt and traveled distance Then considering tilt of the antenna unit and antenna directional pattern a new profile is calculated Distance m Result of topographic correction of the profile v Check the inclinometers calibration before the data acquisition see page 28 for detail 39 Profile Display Using Palette Current Palette Trace amplitude of the GPR profile is coded by color Visual presentation is presented in fa the Palettes tab Above the sample of the GPR trace green current palette is shown The trace amplitude corresponds to the palette s color Result of the trace encoding by the current palette is shown to the right To edit the current palette is design working bar with sliders at least two Palette results in a smooth transition between colors of sliders Grayscale palette is used by default from black to white Double click to the slider to change it color Dialog box for color selecting is appeared Color lx
58. ted They differ in purpose of some buttons The Synchro3 software provides the following tools Rectifier Rectifiert f Apply Rectifiert f Apply Full Wave Fe Positive a as Negative x Restore The Rectifier configuration window contains the following items Edit Box This field specifies tool name Initially the field contains tool name by default The tool name can be edited Apply The tool is activated when is checked Rectifier Select the type of rectifier full wave and half wave positive Mode or negative Positive Negative Add tool Stop adding tool Apply tool after options editing Restore the last saved tool configuration The tool rectifiers traces of the profile The Full wave rectifier inverts negative half wave and remains positive halfe wave unchanged The tool is intended to detect specific features in the profile synphasal line for example It is used during the GPR data interpretation The Half wave rectifier resets to zero positive negative half wave and the rest remains the same positive or inverts negative Half wave rectifier is designed to determine reflection properties polarity for example Applied to the GPR data interpretation Will be useful for localization of geological strata ground water table suffosion areas etc 46 Tools if Hp HAL 4400 UIN i i Yr WW Dy FFR da Hitis Na a TA FP PA nn
59. tes tab is to set up the palette to s ETEA display GPR profile a Horizontal bar of current palette Je setting is located in the upper part of the tab Below the green line shows ys the trace Vertical bar of the right shows trace display using the current palette The palette settings are saved in the GPR profile Save Palette button allows to save the current palette in the Palettes library By pressing this button the current palette appears in the lower SavePalete Palette part of the tab as a button with the palette image E Sh Using the palette describe on page O 40 oo bo a E _ 19 Getting Started Getting Started Software Installation To setup Synchro3 software do the following e Insert CD with Synchro3 software installation into CD player Click install exe from the root directory e Click the Next button of SmartGPR VIY3 Setup dialog box l Smart GPR VIY3 Setup 5 x Welcome to the Smart GPR VIY3 software Setup Wizard This wizard will guide you through the installation of Smart GPR VIY3 software Click Next to continue e Specify path to the program location in the next dialog box The default path is C Transient Technologies gi Smart GPR YIY3 Setup 215 xl Choose Install Location Peer Choose the folder in which to install Smart GPR VIY3 Setup will install Smart GPR VIY3 in the following folder To install in a different Fold
60. the keyboard As soon as you remove the tool profile will be processed in a new sequence and results will be displayed in real time Remove All Tools To delete tools tree click Clear Set button of the Tools tab of the Profile window Once you remove the tool tree original profile will be displayed v In this case tools or tools trees matched with other profiles are not removed Save Set of Tools Adding and editing of the tools to process the profile takes some time To reduce the preparation time to process profiles set of tools can be saved To save a Set of tools select and adjust tools create tools tree and do one of the following e Click Save Set button of the Tools tab of the Profile window e Right click on the tools tree and select Save this Set to Stencil List from the context menu Enter name of the stencil in the Save Set of Tools dialog box and click Save button The name of stored set of tools will appear in the drop down list of Tools tab of the Profile window Apply Set of Tools To apply set of tools for profile processing select stencil from drop down list of Tools tab of Profile window In this case current tools tree will be replaced with tools of the set The profile will be processed again in accordance with the new set of tools Results of the profile processing will be displayed in real time 45 Tools Tools Tool configuration windows are quite different when the tool is added or edi
61. ting to the network VIY3NET after a few seconds a window will appear to enter the password 19 Connect to a Network x I Hide characters Enter the password which is VIY3PASS and press OK In a few seconds VIY3NET will be connected Wireless Network Connection aj VIY3NET Connected iil 605 K603 TP LINK_BCDA72 Start Synchro3 program It will connect the GPR automatically Status bar will show the information of a built in buttery voltage GPR s type and 30 Getting Started the WiFi icon If there is a need to use another network ID SSID password and other settings one would need to disconnect GPR s terminator from the Data connector Connect the GPR with a Data cable In Synchro3 program go to Settings gt General Settings In the popped up window make the necessary adjustments and press Save v IP address of the GPR and the IP address of the network card should be different and meet the subnet mask Connecting to a GPR using Wi Fi router GPR can be connected to the WiFi network by using a WiFi router Such network topology allows us to increase the distance from the computer to GPR as long as router has an autonomous power supply To configure the GPR connection using WiFi router connect GPR to a computer using Data cable In the main menu of Synchro3 go to Settings gt General Settings To manage WiFi connection go to the WiFi frame Left click on the button em After that adjust the
62. toff frequency Frequency value and suppresses frequencies below it The suppression in determined by Range value Spectra of the initial and processed traces as well as normalized frequency response are presented on the filter configuration window Results of the filter operation are displayed in real time Consistent application of the LPF and HPF allows for bandpass or bandstop filter 53 Tools The LPF HPF is used to adjust the spectral composition of the profile for example suppressing low frequency fluctuations high frequency noise certain types of reverb etc Changing the setting can be done using the sliders or by specifying a numerical value in the boxes Input box accepts only numbers as well as pressing the up down keyboard buttons Use up keyboard button to increase the parameter to 1 down to decrease If holding down the Shift key up down keyboard button increase decrease the parameter by 10 Distance m Distance m 449 3 11 3 73 4 35 4 98 560 6 22 6 84 7 46 8 09 8 71 9 33 9 95 10 57 11 20 11 8212 1 3 73 4 35 4 98 560 6 22 6 84 7 46 8 09 8 71 933 9 95 10 57 11 20 11 8212 341 3 73 435 498 580 et 6 84 745 8 09 871 9 33 995 10571120114 pene a s ahan Vettel nasi Poin NY TET P A p jf I NE k mi wie wow fe ita rad WANN wyj VAN a OT eas Mi a i i aM The LPF HPF application results a initial profile b LPF processed profile c HPF processed profile 54 Tools
63. uals are delivered to be free from physical defects for a period for twelve months form the date retail purchase Repair Procedures Exclusive Remedy Transient Technologies will at its option repair or replace products not conforming to this limited warranty at no charge This is the sole and exclusive remedy available for breach of warranty or under any other legal theory with respect to Transient Technologies product If you find a product to be defective contact your authorized Transient Technologies representative or Transient Technologies When you receive authorization return the product as directed including proof of purchase and date at your expense and risk Product repairs not covered by warranty and product updates will be provided at a set rate Limitations This warranty is avoid if the product is damaged by importer or abnormal use or by accident if the product is altered or modified in any way or if any attempt is made to repair the product without authorization from Transient Technologies It is solely the purchaser s responsibility to determine the suitability of these products for each particular application Transient Technologies products are in all events not suitable and are not authorized for use with systems potentially injurious to life or health This warranty is not assignable No Other Warranties EXCEPT AS PROVIDED IN THIS LIMITED WARRANTY TRANSIENT TECHNOLOGIES HARDWARE AND USERMANUAL ARE PROVIDED AS
64. uble click on the Internet Protocol Version 4 TCP IPv4 Create a permanent IP address and a subnet mask in the Properties window Internet Protocol Version 4 TCP IPv4 Properties 1 2 x General You can get IP settings assi automatically if your network supports this capability Otherwise you need to ask your network administrator for the appropriate IP settings Obtain an IP address automatically 192 168 1 121 4 255 255 255 0 Default gateway 192 168 1 1 Obtain DNS server address automatically Use the following DNS server addresses Preferred DNS server 8 8 8 8 Alternate DNS server 4 I Validate settings upon exit Advanced To manage the settings set the IP address that equals 192 168 0 122 and the subnet mask that equals 255 255 255 0 Other settings do not matter Click OK to save the settings Shut down the Wireless Network Connection Status window Click on the icon ill in the right bottom corner of the screen with the right button of a computer mouse See the list of wireless networks that are available om Currently connected to Network 5 PW internet access Wireless Network Connection aj VIY3NET al 605 al K603 Ml TP LINK_BCDA72 al UPB 10 FLOOR wil 2856FX78 wil gl Open Network and Sharing Center Find the VIY3NET network click on it mark the Connect Automatically parameter and press Connect Will begin the process of connec
65. unsatisfactory go to manual mode To do this one of the following e Place cursor on the scroll bar and drag it to the desired location while holding down the left mouse button e Left click on the scroll bar To set zero level use mouse wheel e Set zero level by Up Down buttons of your keyboard Zero level is displayed on the profile by a horizontal line of blue Markers Display and Editting Markers Markers are used for display on Show i Edit l the profile special elements of the measuring range corners of i buildings doorways pillars hatches subsidence etc Markers are set at the time of the data acquisition when you press Space button 38 Profile Display To display markers on the profile click Show button of the View tab of the Profile window Click the button again to cancel the markers display To edit marker click Edit button of the View tab of the Profile window Display Single Trace Display of single trace on the profile is useful for its an To display single trace do the following e Click Wiggle button of the View tab of the Profile window e Move the cursor to the desired area of the profile e Click the left mouse button Single trace A scan will appear on the profile as green wiggle Topographic Correction Realistic sites for GPR sounding are rarely flat and horizontal Displaying GPR profile as a rectangle distorts if the site surface had elevations and antenna unit no
66. ve the cover The grip belt for carrying the antenna unit is fixed with screws with rings for attaching the transport belt Battery cover DATA socket WZ Rings for transport belt attachment Carrying handle AB3 500 Components arrangement of AB3 500 antenna unit are shown here To facilitate the antenna unit battery is placed in a separate box There are DATA and EXT sockets located on cover of the battery box There are ADD and EXT sockets located on the AB3 500 antenna units Antenna unit and battery box are connected by DP Cable via EXT sockets Carrying handle is mounted on top of the antenna unit The front screws of handle have rings to attach the transport belt during surface sounding ADD socket EXT socket EXT socket Carrying handle Rings for transport belt attachment DATA socket AB3 700 Antenna Units Components arrangement of AB3 700 antenna unit are shown here To facilitate the antenna unit battery is placed in a separate box There are DATA and EXT sockets located on cover of the battery box There are ADD and EXT sockets located on the AB3 700 antenna units Antenna unit and battery box are connected by DP Cable via EXT sockets Carrying handle is mounted on top of the antenna unit The front screws of handle have rings to attach the transport belt during surface sounding ADD socket EXT socket EXT socket Carrying handle Rings for transport belt attachment

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