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Agisoft Synergy PhotoScan Professional Edition User Manual 1 MB

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1. 7 Click OK button to set the calibration 4 Note e Alternatively initial calibration data can be imported from file using Load button on the Initial tab of the Camera Calibration dialog box In addition to PhotoScan calibration file format it is possible to import data from Australis PhotoModeler 3DM CalibCam CalCam Initial calibration data will be adjusted during the Align Photos processing step Once Align Photos processing step is finished adjusted calibration data will be displayed on the Adjusted tab of the Camera Calibration dialog box If very precise calibration data is available to protect it from recalculation one should check Fix calibration box In this case initial calibration data will not be changed during Align Photos process Adjusted camera calibration data can be saved to file using Save button on the Adjusted tab of the Camera Calibration dialog box Calibration parameters list fx fy Focal length in x and y dimensions measured in pixels 28 Referencing and measurements CX Cy Principal point coordinates 1 e coordinates of lens optical axis interception with sensor plane skew Skew transformation coefficient k1 k2 k3 k4 Radial distortion coefficients pl p2 Tangential distortion coefficients Setting coordinate system Many applications require data with a defined coordinate system Setting the coordinate system also provides a correct scaling of the model allowing for surface are
2. Displays 3D model in the textured mode Shows hides camera positions reconstructed during image alignment Shows hides positions of markers placed on the model Shows hides aligned chunks Resets model view Undo the last mask editing operation Redo the previously undone mask editing operation Switches to the navigation mode Rectangle selection tool Intelligent scissors tool Intelligent paint tool Magic wand tool Adds current selection to the mask Subtracts current selection from the mask Graphical user interface Photo view commands Invert Selection wl JD Rotate Right Je E Rotate Left Zoom In Zoom Out fe Turn Shading On Off Eb Edit Markers oc oo View Points Hot keys General Create new project Save project Load project Full Screen Model View Undo only for Delete Assign Class Classify Ground Points Masking and Close Holes operations Redo only for Delete Assign Class Classify Ground Points Masking and Close Holes operations Switch between navigation and any other previously selected mode Switch to stereoview mode Switch between orthographic and perspective view modes Change the angle for perspective view Assign dense cloud class only if some points are selected Predefined Views Top Bottom Right 73 Inverts current selection Rotates the photo clockwise Rotates the photo counterclockwise Increases magnification De
3. The largest error will be highlighted To set a georeferenced coordinate system 1 Assign reference coordinates using one of the options described above A Click Settings button on the Reference pane toolbar 3 In the Reference Settings dialog box select the Coordinate System used to compile reference coordinates data if it has not been set at the previous step 4 Specify the assumed measurement accuracy 5 Indicate relative camera to GPS system coordinates if present in Camera Correction section of the Reference Settings dialog box 6 Click OK button to initialize the coordinate system and estimate geographic coordinates Rotation angles in PhotoScan are defined around the following axes yaw axis runs from top to bottom pitch axis runs from left to right wing of the drone roll axis runs from tail to nose of the drone Zero values of the rotation angle triple define the following camera position aboard camera looks down to the ground frames are taken in landscape orientation and horizontal axis of the frame is perpendicular to the central tail nose axis of the drone If the camera is fixed in a different position respective yaw pitch roll values should be input in the camera correction section of the Settings dialog The senses of the angles are defined according to the right hand rule Note e Step 5 can be safely skipped if you are using standard GPS system not that of superhigh precision In Select Coordinate S
4. detailed as possible To select master channel 1 Add multispectral images to the project using Add Photos command from the Workflow menu or Add Photos toolbar button 2 Select Set Master Channel command from the chunk context menu in the Workspace pane 3 Inthe Set Master Channel dialog select the channel to be used as master and click OK button Display of images in PhotoScan window will be updated according to the master channel selection Note e Set Master Channel command is available for RGB images as well You can either indicate only one channel to be used as the basis for photogrammetric processing or leave the parameter value as Default for all three channels to be used in processing Multispectral orthophoto export is supported in GeoTIFF format only When exporting in other formats only master channel will be saved Aligning photos Once photos are loaded into PhotoScan they need to be aligned At this stage PhotoScan finds the camera position and orientation for each photo and builds a sparse point cloud model To align a set of photos 1 Select Align Photos command from the Workflow menu 2 Inthe Align Photos dialog box select the desired alignment options Click OK button when done 3 The progress dialog box will appear displaying the current processing status To cancel processing click Cancel button 10 General workflow Alignment having been completed computed camera positions and a spars
5. After alignment is complete the separate chunks can be merged into a single chunk To merge chunks 1 Select Merge Chunks command from the Workflow menu 2 Inthe Merge Chunks dialog box select chunks to be merged and the desired merging options Click OK button when done 3 PhotoScan will merge the separate chunks into one The merged chunk will be displayed in the project content list on Workspace pane The following parameters control the chunks merging procedure and can be modified in the Merge Chunks dialog box Merge dense clouds Defines if dense clouds from the selected chunks are combined Merge models Defines if models from the selected chunks are combined Merge markers Defines if markers from the selected chunks are merged only markers with the same labels would be merged Chunks merging result 1 e photos point clouds and geometry will be stored in the new chunk and it may be treated as an ordinary chunk e g the model can be textured and or exported Batch processing PhotoScan allows to perform general workflow operations with multiple chunks automatically It is useful when dealing with a large number of chunks to be processed 55 Automation Batch processing can be applied to all chunks in the Workspace to unprocessed chunks only or to the chunks selected by the user Each operation chosen in the Batch processing dialog will be applied to every selected chunk before processing will move on to the next
6. EXIF data is insufficient to calculate focal length in pixels PhotoScan will assume that focal length equals to 50 mm 35 mm film equivalent However if the initial guess values differ significantly from the actual focal length it is likely to lead to failure of the alignment process So if photos do not contain EXIF metadata it is preferable to specify focal length mm and sensor pixel size mm manually It can be done in Camera Calibration dialog box available from Tools menu Generally this data is indicated in camera specification or can be received from some online source To indicate to the program that camera orientation parameters should be estimated based on the focal length and pixel size information it is necessary to set the Type parameter on the Initial tab to Auto value Camera calibration parameters Once you have tried to run the estimation procedure and got poor results you can improve them thanks to the additional data on calibration parameters To specify camera calibration parameters 1 Select Camera Calibration command from the Tools menu 2 Select calibration group which needs reestimation of camera orientation parameters on the left side of the Camera Calibration dialog box 3 Inthe Camera Calibration dialog box select Initial tab 4 Modify the calibration parameters displayed in the corresponding edit boxes 5 Set the Type to the Precalibrated value 6 Repeat to every calibration group where applicable
7. Edit menu To crop selection to the selected points click the y Crop Selection toolbar button or select Crop Selection command from the Edit menu Classifying dense cloud points PhotoScan allows not only to generate and visualize dense point cloud but also to classify the points within 1t There are two options automatic division of all the points into two classes ground points and the rest and manual selection of a group of points to be placed in a certain class from the standard list known for LIDAR data Dense cloud points classification opens way to customize Build Mesh step you can choose what type of objects within the scene you would like to be reconstructed and indicate the corresponding point class as a source data for mesh generation For example if you build mesh based on ground points only 1t will be possible to export DTM as opposed to DSM at the next step Automatic classification of ground points For the user to avoid extra manual work PhotoScan offers feature for automatic detection of ground points To classify ground points automatically 1 Select Classify Ground Points command from the Dense Cloud submenu of the Tools menu 2 Inthe Classify Ground Points dialog box select the source point data for the classification procedure Click OK button to run the classification procedure Automatic classification procedure consists of two steps At the first step the dense cloud is divided into cells of a certain size In
8. OK button when done 3 Browse to the folder where the masks should be saved and select it 4 The progress dialog box will appear displaying the current processing status To cancel processing click Cancel button The following parameters can be specified during mask export Export masks for Specifies whether masks should be exported for the currently opened photo active chunk or entire Workspace Current photo save mask for the currently opened photo if any Active chunk save masks for active chunk Entire workspace save masks for all chunks in the project File type Specifies the type of generated files Single channel mask image generates single channel black and white mask images Image with alpha channel generates color images from source photos combined with mask data in alpha channel 44 Editing Mask file names Specifies the file name template used to generate mask file names This template can contain special tokens that will be substituted by corresponding data for each photo being processed The following tokens are supported filename file name of the source photo without extension fileext extension of the source photo camera camera label frame frame number filenum sequential number of the mask being exported For example filename _mask png template can be used to export masks in PNG format with _mask suffix Note e When importing exporting mask for the curre
9. Prompts to save any unsave changes applied to the current project Undo the last editing operation Graphical user interface Edit Menu qu Redo Delete Selection y Crop Selection Invert Selection Grow Selection Shrink Selection Gradual selection View Menu oo oo Point Cloud ogg ase Dense Cloud 1 Dense Cloud Classes gt Shaded d Solid lt gt Wireframe Textured Full Screen dE Show Cameras jt Show Markers fe Show Region Show Trackball Show Info Predefined views Perspective Orthographic Stereo Mode TE Workspace Timeline 68 Redo the previously undone editing operation Removes selected faces from the mesh or selected points from the point cloud Crops selected faces points Inverts current selection Grows current selection Shrinks current selection Selects faces points based on the specified criterion Displays sparse point cloud reconstructed during photo alignment Displays dense point cloud Displays dense point cloud colored by point classes Displays 3D model in the shaded mode Displays 3D model in the solid mode Displays 3D model in the wireframe mode Displays 3D model in the textured mode Switches to from Full Screen mode Shows or hides camera positions estimated during image alignment Shows or hides marker positions Shows or hides region selector Shows or hides the trackball Shows or hides the mesh information on screen di
10. are available in PhotoScan e Decimation tool e Close Holes tool e Automatic filtering based on specified criterion e Manual polygon removal e Fixing mesh topology More complex editing can be done in the external 3D editing tools PhotoScan allows to export mesh and then import it back for this purpose i Note e For polygon removal operations such as manual removal and connected component filtering it is possible to undo the last mesh editing operation There are Undo Redo commands in the Edit menu Please note that undo redo commands are not supported for mesh decimation and this operation cannot be undone 48 Editing Decimation tool Decimation is a tool used to decrease the geometric resolution of the model by replacing high resolution mesh with a lower resolution one which is still capable of representing the object geometry with high accuracy PhotoScan tends to produce 3D models with excessive geometry resolution so mesh decimation 1s usually a desirable step after geometry computation Highly detailed models may contain hundreds of thousands polygons While it is acceptable to work with such a complex models in 3D editor tools in most conventional tools like Adobe Reader or Google Earth high complexity of 3D models may noticeably decrease application performance High complexity also results in longer time required to build texture and to export model in pdf file format In some cases it is desirable to keep as much
11. axis in the image coordinate system points to the right Y axis points down Image coordinates are measured in pixels Equations used to project a points in the local camera coordinate system to the image plane are provided below for each supported camera model The following definitions are used in the equations X Y Z point coordinates in the local camera coorinate system u V projected point coordinates in the image coordinate system in pixels fx fy focal lengths Cx Cy principal point coordinates K Ko Ka Kg radial distortion coefficients P P2 tangential distortion coefficients skew skew coefficient between the x and the y axis width image width in pixels height image height in pixels Frame cameras x X Z y Y Z r sqrt x yo Xx x 1 K r K r Kar Kar P r 2x 2P xy y y l K r Kir Kar Kar Pi 17 2y 2Poxy u Cx x f y skew V Ccy yiy 78 Camera models Fisheye cameras xg X Z yo Y Z ro sqrt xo yo Xx X9 tan ro ro y Yo tan lro To T sart x y X xX 1 K r Kor Kar Kar P r 2x 2P xy y y l Kir Kor Kar Kar P 17 2y 2Poxy u Cx X f y skew vV Cy y Spherical cameras equirectangular projection u c f tan X Z v cy fy tan Y sqrt X X Z Z where cx width 0 5 cy height 0 5 fx width 2 pi fy hei
12. be processed contains CTs from previous versions of PhotoScna software it is required to disable parity check in order to make the detector work Non coded targets implementation Non coded targets can also be automatically detected by PhotoScan see Detect Markers dialog However for non coded targets to be matched automatically it is necessary to run align photos procedure first Non coded targets are more appropriate for aerial surveying projects due to the simplicity of the pattern to be printed on a large scale But looking alike they does not allow for automatic identification so manual assignment of an identifier is required if some referencing coordinates are to be imported from a file correctly Performing measurements PhotoScan supports measuring of distances between control points as well as of surface area and volume of the reconstructed 3D model Distance measurement PhotoScan enables measurements of direct distances between the points of the reconstructed 3D scene The points used for distance measurement must be defined by placing markers in the corresponding locations 38 Referencing and measurements Model coordinate system must be also initialized before the distance measurements can be performed Alternatively the model can be scaled based on known distance scale bar information to become suitable for measurements For instructions on placing markers refining their positions and setting coordinate system
13. coordinate system To calculate the coordinates of the camera positions and or markers in a different coordinate system use Convert toolbar button on the Reference pane Example of a reference coordinates file in CSV format txt The reference coordinates can be loaded onto the Reference pane using character separated text file format Each reference point is specified in this file on a separate line Sample reference coordinates file is provided below lt label gt lt lt lt y gt lt a gt IMG_0159 JPG 40 165011 48 103654 433 549477 IMG_0160 JPG 40 165551 48 103654 434 724281 IMG_0161 JPG 40 166096 48 103640 435 630558 Individual entries on each line should be separated with a tab space semicolon comma etc character All lines starting with character are treated as comments Records from the coordinate file are matched to the corresponding photos or markers basing on the label field Camera coordinates labels should match the file name of the corresponding photo including extension Marker coordinates labels should match the labels of the corresponding markers in the project file All labels are case insensitive Note e Character separated reference coordinates format does not include specification of the type of coordinate system used The kind of coordinate system used should be selected separately e PhotoScan requires z value to indicate height above the ellipsoid Optimization of camera alignment Photo
14. could be otherwise used for modeling the main object 41 Editing Setting the masks for such background areas allows to avoid this problem and increases the precision and quality of geometry reconstruction Building texture atlas During texture atlas generation masked areas on the photos are not used for texturing Masking areas on the photos that are occluded by outliers or obstacles helps to prevent the ghosting effect on the resulting texture atlas Loading masks Masks can be loaded from external sources as well as generated automatically from background images if such data is available PhotoScan supports loading masks from the following sources e From alpha channel of the source photos e From separate images e Generated from background photos based on background differencing technique e Based on reconstructed 3D model To import masks l 2 Select Import Masks command from the Tools menu In the Import Mask dialog select suitable parameters Click OK button when done When generating masks from separate or background images the folder selection dialog will appear Browse to the folder containing corresponding images and select it The progress dialog box will appear displaying the current processing status To cancel processing click Cancel button The following parameters can be specified during mask import Import masks for Specifies whether masks should be imported for the currently opened p
15. geometry details as possible like it is needed for scientific and archive purposes However if there are no special requirements it is recommended to decimate the model down to 100 000 200 000 polygons for exporting in PDF and to 100 000 or even less for displaying in Google Earth and alike tools To decimate 3D model 1 Select Decimate Mesh command from the Tools menu 2 Inthe Decimate Mesh dialog box specify the target number of polygons which should remain in the final model Click on the OK button to start decimation 3 The progress dialog box will appear displaying the current processing status To cancel processing click on the Cancel button Note e Texture atlas is discarded during decimation process You will have to rebuild texture atlas after decimation is complete Close Holes tool Close Holes tool provides possibility to repair your model if the reconstruction procedure resulted in a mesh with several holes due to insufficient image overlap for example Some tasks require a continuous surface disregarding the fact of information shortage It is necessary to generate a close model for instance to fulfill volume measurement task with PhotoScan Close holes tool enables to close void areas on the model substituting photogrammetric reconstruction with extrapolation data It is possible to control an acceptable level of accuracy indicating the maximum size of a hole to be covered with extrapolated data To
16. in pixels Unlike orthophoto export it is sensible to set smaller pixel size compared to the default value in DEM export dialog the effective resolution will increase If you have chosen to export DEM with a certain pixel size not using Max dimension pix option it is recommended to check estimated Total size pix of the resulting file to be sure that it is not too large to be correctly saved to the targeted file format Note Export DEM dialog allows to crop invalid DEM 1 e DEM parts corresponding to the areas visible on less than 2 source photos The values for the points of the grid that couldn t be calculated will be set to the value indicated in no data value box Split in blocks option in the Export DEM dialog can be useful for exporting large projects or meeting special DEM requirements See Orthophoto export section for details To export a particular part of the project use Region section of the Export DEM dialog See Orthophoto export section for details The following formats are supported for DEM export GeoTIFF elevation data Arc Info ASCII Grid ASC Band interleaved file format BIL XYZ file format Sputnik KMZ Extra products to export In addition to main targeted products PhotoScan allows to export several other processing results like Undistort photos 1 e photos free of lens distortions Undistort Photos command available from Export submenu of the Tools menu Depth map for any image Ex
17. instances running on different processing nodes can work on the same task in parallel effectively reducing the total processing time needed By default processing is divided between the nodes on a chunk by chunk frame by frame basis with the exception of camera alignment and optimization where each chunk is processed as a whole on a single node In addition a more fine grained distribution can be enabled for photo alignment and dense cloud generation in which case processing of individual chunks frames is further subdivided between several processing nodes Communication between processing nodes server and clients 1s performed using TCP connections In addition shared network storage accessible for all processing nodes and clients is used for storing the source data and intermediate processing results Cluster components Processing node n Network storage Server The server node coordinates operation of all processing nodes maintaining a task queue for all projects scheduled for processing A separate interface 1s provided for clients which can connect to the server to start new processing tasks or monitor progress of existing ones The server itself doesn t perform any processing and can easily run on slow hardware The server component is critical for operation of the cluster and is not fault tolerant Measures should be taken to ensure continuous operation of the server node The server node accepts TCP connections from p
18. of cameras and camera groups in each chunk e List of markers in each chunk e List of scale bars in each chunk e Tie points in separate chunks e Depth maps in separate chunks e Dense point clouds in separate chunks e 3D models in separate chunks Buttons located on the Workspace pane toolbar allow to e Add chunk e Add photos e Add marker e Enable or disable certain cameras or chunks for processing at further stages e Remove items 65 Graphical user interface Each element in the list is linked with the context menu providing quick access to some common operations Photos pane Photos pane displays the list of photos masks in the active chunk in the form of thumbnails Buttons located on the Photos pane toolbar allow to Enable disable certain cameras Remove cameras Rotate selected photos clockwise counterclockwise Reset current photo filtering option Switch between images and masks thumbnails Increase decrease icons size or display detailed information on photos including EXIF data Console pane Console pane is used for Displaying auxiliary information Displaying error messages Python commands input Buttons located on the pane toolbar allow Save log Clear log Execute Python script Reference pane Reference pane is designed for Displaying camera and or marker coordinates Displaying scale bars lengths Displaying camera orientations Displaying estimation errors Buttons locat
19. or subtracting selections A selection is created with one of the supported selection tools and is not incorporated in the current mask until it is merged with a mask using Add Selection or Subtract Selection operations To edit the mask Open the photo to be masked by double clicking on its name on the Workspace Photo pane The photo will be opened in the main window The existing mask will be displayed as a shaded region on the photo Select the desired selection tool and generate a selection Click on pal Add Selection toolbar button to add current selection to the mask or Subtract Selection to subtract the selection from the mask Invert Selection button allows to invert current selection prior to adding or subtracting 1t from the mask The following tools can be used for creating selections r 1 L Rectangle selection tool Pp Rectangle selection tool is used to select large areas or to clean up the mask after other selection tools were applied Intelligent scissors tool Intelligent scissors 1s used to generate a selection by specifying 1ts boundary The boundary is formed by selecting a sequence of vertices with a mouse which are automatically connected with segments The segments can be formed either by straight lines or by curved contours snapped to the object boundaries To enable snapping hold Ctrl key while selecting the next vertex To complete the selection the boundary should be closed by click
20. please refer to the Setting coordinate system section of the manual Scale bar concept is discribed in the Optimization of camera alignment section To measure distance 1 Place the markers in the scene at the locations to be used for distance measurement For information on marker placement please refer to the Setting coordinate system section of the manual 2 Select both markers to be used for distance measurements on the Reference pane using Ctrl button Select bCreate Scale Bar command form the 3D view context menu The scale bar will be created and an instant added to the Scale Bar list on the Reference pane Switch to the estimated values mode using Fal view Estimated button from the Reference pane toolbar 5 The estimated distance for the newly created scale bar equals to the distance that should have been measured To measure distance between cameras 1 Select the two cameras on the Workspace or Reference pane using Ctrl button Alternatively the cameras can be selected in the Model view window using selecting tools from the Toolbar Select EbCreate Scale Bar command form the context menu The scale bar will be created and an instant added to the Scale Bar list on the Reference pane 3 Switch to the estimated values mode using HW View Estimated button from the Reference pane toolbar 4 The estimated distance for the newly created scale bar equals to the distance that should have been measured Note e Pl
21. step Batch processing can perform the following operations Align Photos Optimize Alignment Build Dense Cloud Build Mesh Build Texture Decimate Mesh Import Cameras Import Masks Export Points Export Model Export Texture Export Orthophoto Export DEM Align Chunks Merge Chunks Save Project Save project after every completed operation To start batch processing 1 Ze Select Batch Process command from the Workflow menu Click Add to add the desired processing stages In the Add Job dialog select the kind of operation to be performed the list of chunks 1t should be applied to and desired processing parameters Click OK button when done Repeat the previous steps to add other processing steps as required Arrange jobs by clicking Up and Down arrows at the right of the Batch Process dialog box Click OK button to start processing The progress dialog box will appear displaying the list and status of batch jobs and current operation progress To cancel processing click the Cancel button 56 Automation 4D processing Overview PhotoScan supports reconstruction of dynamic scenes captured by a set of statically mounted synchronized cameras For this purpose multiple image frames captured at different time moments can be loaded for each camera location forming a multiframe chunk In fact normal chunks capturing a static scene are multiframe chunks with only a single frame loaded Navigation through the frame seque
22. the active chunk When a new chunk is created it is activated automatically Save project operation saves the content of all chunks To save selected chunks as a separate project use Save Chunks command from the chunk context menu To set another chunk as active 1 Right click on the chunk title on the Workspace pane 2 Select Set Active command from the context menu To remove chunk 1 Right click on the chunk title on the Workspace pane 2 Select Remove Items command from the context menu Aligning chunks After the partial 3D models are built in several chunks they can be merged together Before merging chunks they need to be aligned To align separate chunks 1 Select Align Chunks command from the Workflow menu 2 Inthe Align Chunks dialog box select chunks to be aligned indicate reference chunk with a double click Set desired alignment options Click OK button when done 3 The progress dialog box will appear displaying the current processing status To cancel processing click the Cancel button Aligning chunks parameters The following parameters control the chunks alignment procedure and can be modified in the Align Chunks dialog box Method Defines the chunks alignment method Point based method aligns chunks by matching photos across all the chunks Marker based method uses markers as common points for different chunks The details on using markers are available in the Setting coordinate system section Camera ba
23. use Shift function while exporting the model It allows to set the value to be subtracted from the respective coordinate value for every vertex in the mesh Essentially this means translation of the model coordinate system origin which may be useful since some 3D editors for example truncate the coordinates values up to 8 or so digits while in some projects they are decimals that make sense with respect to model positioning task So 1t can be recommended to subtract a value equal to the whole part of a certain coordinate value see Reference pane Camera coordinates values before exporting the model thus providing for a reasonable scale for the model to be processed in a 3D editor program PhotoScan supports model export in the following formats e Wavefront OBJ e 3DS file format e VRML 21 General workflow e COLLADA e Stanford PLY e STL models e Autodesk FBX e Autodesk DXF e Google Earth KMZ e U3D e Adobe PDF Some file formats OBJ 3DS VRML COLLADA PLY FBX save texture image in a separate file The texture file should be kept in the same directory as the main file describing the geometry If the texture atlas was not built only the model geometry is exported Orthophoto export Orthophoto export is normally used for generation of high resolution imagery based on the source photos and reconstructed geometry The most common application is aerial photographic survey processing but it may be also useful when a detail
24. Agisoft PhotoScan User Manual Professional Edition Version 1 1 SYNERGY POSITIONING SYSTEMS SY N E RGY y 3 52 Arrenway Drive Albany Auckland New Zealand Free Call 0800 867 266 Phone 64 9 476 5151 Fax 64 9 476 5140 Email info synergypositioning co nz Website www synergypositioning co nz Agisoft PhotoScan User Manual Professional Edition Version 1 1 Publication date 2014 Copyright O 2014 Agisoft LLC Table of Contents OVETVIEW dead Vv FOMI WOKS 525 ti dating neces ii a el iii Vv PAOOUL Me mantas E Vv SAA E A o l Ss AAA II O A l OpenGL accord a E ans lun ete aes l Installation procedure di a ia A a e EA 2 Restrictions at the Demo mode 2 228 nici O Ae 2 DC IPOE DADIOS taa atacada deco 4 RS LUI D AO TES ET 4 Camera setas atado cia ab te TC te aitu 4 CIBI CL Scene CUITS MENIS E nan 4 Maso PIC DIOC SSINS vera dada dec tr dica nel 4 Captura SC HAMOS ada cs 5 Resta to a io dedico dass 6 Je General WOLK EOW a A A nudes poduain ES 8 Pret renees S ONES Se Nr el tii a tite ee tee 8 Load PAS an desde nn ed orme er en aie 8 O A ten 10 Butidine dense point Cloud AAA SA ES 13 B lidino Mes recia rito tail aros 14 Butdino model texte ia idos 15 Savine imermediate results stats ie inst til ies 17 EXPOruno tes HS do E A os 18 A RErerencino and meas ire me MS ct a A tias 24 Camera Cabra ton ER Ut ME Re A stats dinde ces 27 SeN COOLdINAlLE SYSTEM meiir ra nat a A iaa E side ue 29 Optimizacion of gamera AH MM
25. ENT sane a EIA EN 34 Workane with coded and nonscoded AT OCS sac danse teal a a aa n a a iA 37 Portones Meds Dele MES eia coo oa 38 A O a A a a E E E 41 W E N A E O E E 41 Edite Don Coud eesriie 45 Classityinesdensescloua POS ta laa 4 Editin e model ecommerce A ed D dt ann dde tt ut 48 O AUTOM AO A es cut 53 Use CUASI ia ions oan etch tate oat eared o Me 53 APOCO SM al a Cdt de 57 A e ee E E A e ES 59 Tr INGUWOLK DOCES INE a E E r E eda 60 OVELVISW iare isa a E E A T E E teeatae rnd 60 Cluster COMPONEN S si dis ci idasdal 60 Cluster A dant id ii tue 61 Closter administra On A EA IS ee tte oaedeetes 63 As Gr phical Userintertacs dt A ia 64 ADDHCAUOIL MI nacida dentado 64 Menir commando aae aeon E E a A A EA niet ti OC 67 Toolbar DUMAS A A AA AI 71 HOC KEYS tt at di a a ti adobes 73 Dy SUP poned TOMMAS ES nd mane dado 75 OA 75 111 Agisoft PhotoScan User Manual Camera Calibra NON ii A 75 Camera ROM lOO ea dele es die ia 75 GCP TOCA ONG q E E NAAA TA GAS io 75 Intrinsic and extrinsic camera Parameters lie 75 TIC DOS ilatina id da a a 76 Sparse dense ponte CIO RS Sn E 76 MESE MODEL AA ES AAA AE 76 VEU OS ce OCHO P DOO ec a ii adi 11 Digital elevation model SN DEN ne idas Ti Tied MOS NS AS A NT Aaa a T71 ORE EE ON e E T P E E ide 78 Frame Cameras a ds N 78 ise ye cameras sd na oe 79 Spherical cameras equirectangular projection ooooococconcnconcnnoncnnoncononnoncnnoncnnonnononnnncnnoos 79 1v Overview Ag
26. Error IMG_0010JPG IMG_0011JPG Distance m Error m General view of application window Model view Model view tab is used for displaying 3D data as well as for mesh and point cloud editing The view of the model depends on the current processing stage and is also controlled by mode selection buttons on the PhotoScan toolbar Model can be shown as a dense cloud with class indication or without or as a mesh in shaded solid wireframe or textured mode Along with the model the results of photo alignment can be displayed These include sparse point cloud and camera positions visualised data 64 Graphical user interface PhotoScan supports the following tools for navigation in the 3D view Tool Keyboard modifier Rotation Tool Default Pan Tool Ctrl key pressed Zooming Tool Shift key pressed All navigation tools are accessible in the navigation mode only To enter the navigation mode click the 5 Navigation toolbar button i Note e Zooming into the model can be also controlled by the mouse wheel Photo view Photo view tab 1s used for displaying individual photos as well as markers and masks on them Photo view is visible only if any photo is opened To open a photo double click on its name on the Workspace Reference or Photos pane Workspace pane On the Workspace pane all elements comprising the current project are displayed These elements can include e List of chunks in the project e List
27. G TIFF PNG BMP OpenEXR Export formats PhotoScan Lens Calibration xml Australis Camera Parameters txt PhotoModeler Camera Calibration in1 3DM CalibCam Camera Parameters txt CalCam Camera Calibration cal Kstimated positions Character separated values txt PhotoScan structure xml Kstimated positions Character separated values txt PhotoScan structure xml Intrinsic and extrinsic camera parameters Export camera positions PhotoScan xml Import camera positions BINGO dat Bundler out VisionMap Detailed Report txt Tie points Import not available Sparse dense point cloud Import not available Mesh model Import mesh Wavefront OBJ obj 3DS models 3ds COLLADA dae Stanford PLY ply STL models stl Autodesk DXF dxf Autodesk FBX fbx Universal 3D models u3d Supported formats 76 Export camera positions Bundler out CHAN files chan Boujou txt Omega Phi Kappa txt PATB Exterior Orientation ptb BINGO Exterionr Orientation dat AeroSys Exterior Orientation orn Inpho Project File prj Export matches BINGO dat ORIMA txt PATB ptb Export formats Wavefront OBJ obj Stanford PLY ply XYZ Point Cloud txt ASPRS LAS las ASTM E57 e57 Universal 3D u3d potree zip PhotoScan OC3 0c3 Adobe PDF pdf Export mesh Wavefront OBJ obj 3DS mod
28. Scan estimates internal and external camera orientation parameters during photo alignment This estimation is performed using image data alone and there may be some errors in the final estimates The accuracy of the final estimates depends on many factors like overlap between the neighboring photos as well as on the shape of the object surface These errors can lead to non linear deformations of the final model During georeferencing the model is linearly transformed using 7 parameter similarity transformation 3 parameters for translation 3 for rotation and 1 for scaling Such transformation can compensate only a linear model misalignment The non linear component can not be removed with this approach This is usually the main reason for georeferencing errors 34 Referencing and measurements Possible non linear deformations of the model can be removed by optimizing the estimated point cloud and camera parameters based on the known reference coordinates During this optimization PhotoScan adjusts estimated point coordinates and camera parameters minimizing the sum of reprojection error and reference coordinate misalignment error To achieve greater optimizing results it may be useful to edit sparse point cloud deleting obviously mislocated points beforehand To read about point cloud editing refer to the Editing point cloud section of the manual Georeferencing accuracy can be improved significantly after optimization It is recommended to p
29. Texture generation parameters The following parameters control various aspects of texture atlas generation Texture from Single photo mapping mode only Specifies the photo to be used for texturing Available only in the Single photo mapping mode Blending mode not used in Single photo mode Selects the way how pixel values from different photos will be combined in the final texture Mosaic gives more quality for orthophoto and texture atlas than Average mode since it does not mix image details of overlapping photos but uses most appropriate photo 1 e the one where the pixel in question is located within the shortest distance from the image center Mosaic texture blending mode is especially useful for orthophoto generation based on approximate geometric model Average uses the average value of all pixels from individual photos Max Intensity the photo which has maximum intensity of the corresponding pixel is selected Min Intensity the photo which has minimum intensity of the corresponding pixel is selected 16 General workflow Texture size count Specifies the size width amp hight of the texture atlas in pixels and determines the number of files for texture to be exported to Exporting texture to several files allows to archive greater resolution of the final model texture while export of high resolution texture to a single file can fail due to RAM limitations Additionally the following advanced parameters can be
30. a and volume measurements and makes model loading in geoviewers and geoinformatics software much easier Some functionality like digital elevation model export is available only after the coordinate system 1s defined PhotoScan supports setting a coordinate system based on either ground control point marker coordinates or camera coordinates In both cases the coordinates are specified in the Reference pane and can be either loaded from the external file or typed in manually Setting coordinate system based on recorded camera positions is often used in aerial photography processing However 1t may be also useful for processing photos captured with GPS enabled cameras Placing markers is not required if recorded camera coordinates are used to initialize the coordinate system In the case when ground control points are used to set up the coordinate system the markers should be placed in the corresponding locations of the scene Using camera positioning data for georeferencing the model is faster since manual marker placement is not required On the other hand ground control point coordinates are usually more accurate than telemetry data allowing for more precise georeferencing Placing markers PhotoScan uses markers to specify locations within the scene Markers are used for setting up a coordinate system photo alignment optimization measuring distances and volumes within the scene as well as for marker based chunk alignment Marker positions a
31. ace area and volume of the model Classifies dense point cloud based on the user defined settings Assigns class to the selected points Resets assigned classes Selects masked dense cloud points Builds sparse point cloud based on the estimated camera parameters available Thin point cloud by reducing the number of projections on the individual photos to the given limit Graphical user interface Tools Menu Detect Markers Track Markers Print Markers Import Mesh Import Texture Import Cameras Import Markers Import Masks Export Texture Export Cameras Export Markers Export Matches Export Masks Export Panorama Undistort Photos Camera Calibration P Optimize Cameras Reset Region Preferences 4 Run Script Photo Menu Open Next Photo Open Previous Photo Navigation E L Rectangle Selection Intelligent Scissors KR Intelligent Paint 70 Creates markers from coded targets on photos Tracks marker locations across the frame sequence Generates printable PDF file with coded targets Imports edited mesh from the external program Imports edited texture from the external program Imports camera positions and orientation data Imports marker projections Imports masks or creates mask from model or background Exports model texture Exports camera positions and orientation data Exports marker projections Exports tie point mea
32. adjusted Enable color correction The feature 1s useful for processing of data sets with extreme brightness variation However please note that color correction process takes up quite a long time so it is recommended to enable the setting only for the data sets that proved to present results of poor quality i Note e HDR texture generation requires HDR photos on input To improve result texture quality it may be reasonable to exclude poorly focused images from processing at this step PhotoScan suggests automatic image quality estimation feature Images with quality value of less than 0 5 units are recommended to be disabled and thus excluded from texture generation procedure To disable a photo use e Disable button from the Photos pane toolbar PhotoScan estimates image quality as a relative sharpness of the photo with respect to other images in the data set The value of the parameter is calculated based on the sharpness level of the most focused part of the picture To estimate image quality 7 Switch to the detailed view in the Photos pane using Details command from the Change menu on the Photos pane toolbar 2 Select all photos to be analyzed on the Photos pane 3 Right button click on the selected photo s and choose Estimate Image Quality command from the context menu 4 Once the analysis procedure is over a figure indicating estimated image quality value will be displayed in the Quality column on the Photos p
33. al user intervention can be minimized even further due to multiple chunk project concept each chunk to include one typical data set For a project with several chunks of the same nature common operations available in Batch Processing dialog are applied to each selected chunk individually thus allowing to set several data sets for automatic processing following predefined workflow pattern In addition multiple chunk project could be useful when it turns out to be hard or even impossible to generate a 3D model of the whole scene in one go This could happen for instance 1f the total amount of photographs is too large to be processed at a time To overcome this difficulty PhotoScan offers a possibility to split the set of photos into several separate chunks within the same project Alignment of photos building dense point cloud building mesh and forming texture atlas operations can be performed for each chunk separately and then resulting 3D models can be combined together Working with chunks 1s not more difficult than using PhotoScan following the general workflow In fact in PhotoScan always exists at least one active chunk and all the 3D model processing workflow operations are applied to this chunk To work with several chunks you need to know how to create chunks and how to combine resulting 3D models from separate chunks into one model Creating a chunk To create new chunk click on the SA dd Chunk toolbar button on the Workspace pa
34. ameters PhotoScan supports several reconstruction methods and settings which help to produce optimal reconstructions for a given data set Surface type Arbitrary surface type can be used for modeling of any kind of object It should be selected for closed objects such as statues buildings etc It doesn t make any assumptions on the type of the object modeled which comes at a cost of higher memory consumption Height field surface type is optimized for modeling of planar surfaces such as terrains or bas reliefs It should be selected for aerial photography processing as it requires lower amount of memory and allows for larger data sets processing Source data Specifies the source for the mesh generation procedure Sparse cloud can be used for fast 3D model generation based solely on the sparse point cloud Dense cloud setting will result in longer processing time but will generate high quality output based on the previously reconstructed dense point cloud Polygon count Specifies the maximum number of polygons in the final mesh Suggested values High Medium Low are calculated based on the number of points in the previously generated dense point cloud the 14 General workflow ration is 1 5 1 15 and 1 45 respectively They present optimal number of polygons for a mesh of a corresponding level of detail It 1s still possible for a user to indicate the target number of polygons in the final mesh according to his choice It could
35. and non metric as long as you follow some specific capturing guidelines This section explains general principles of taking and selecting pictures that provide the most appropriate data for 3D model generation IMPORTANT Make sure you have studied the following rules and read the list of restrictions before you get out for shooting photographs Equipment e Use a digital camera with reasonably high resolution 5 MPix or more e Avoid ultra wide angle and fish eye lenses The best choice is 50 mm focal length 35 mm film equivalent lenses It is recommended to use focal length from 20 to 80 mm interval in 35mm equivalent If a data set was captured with fish eye lens appropriate camera sensor type should be selected in PhotoScan Camera Calibration settings prior to processing e Fixed lenses are preferred If zoom lenses are used focal length should be set either to maximal or to minimal value during the entire shooting session for more stable results Camera settings e Using RAW data losslessly converted to the TIFF files is preferred since JPG compression induces unwanted noise to the images e Take images at maximal possible resolution e ISO should be set to the lowest value otherwise high ISO values will induce additional noise to images e Aperture value should be high enough to result in sufficient focal depth it is important to capture sharp not blurred photos e Shutter speed should not be too slow otherwise blur can o
36. ane Saving intermediate results Certain stages of 3D model reconstruction can take a long time The full chain of operations could easily last for 4 6 hours when building a model from hundreds of photos It is not always possible to finish all the operations in one run PhotoScan allows to save intermediate results in a project file PhotoScan project files may contain the following information e List of loaded photographs with reference paths to the image files e Photo alignment data such as information on camera positions sparse point cloud model and set of refined camera calibration parameters for each calibration group e Masks applied to the photos in project 17 General workflow e Depth maps for cameras e Dense point cloud model with information on points classification e Reconstructed 3D polygonal model with any changes made by user This includes mesh and texture if it was built e List of added markers as well as of scale bars and information on their positions e Structure of the project 1 e number of chunks in the project and their content You can save the project at the end of any processing stage and return to it later To restart work simply load the corresponding file into PhotoScan Project files can also serve as backup files or be used to save different versions of the same model Note that since PhotoScan tends to generate extra dense point clouds and highly detailed polygonal models project saving pro
37. ase of a placement error at some frame adjust the wrong marker location within the frame where the failure occurred Once the marker location is refined by user the marker icon will change to An 5 Restart tracking from that frame using Track Markers command again Note e If the ending frame index is smaller than the starting index tracking will be performed in the backwards direction 58 Automation e Automatic marker tracking is likely to fail in case when structured light is used to add texture details to the object surface as the light pattern will not be static with respect to the moving object surface Python scripting PhotoScan supports Python API using Python 3 3 as a scripting engine Python commands and scripts can be executed in PhotoScan through one of the following options e PhotoScan Console pane can serve as standard Python console Click Run Script button on Console pane toolbar or use 4 Run Script command from the Tools menu to run a Python script For details on PhotoScan functionality accessible through Python scripts please refer to Python API Reference document available on AgiSoft official website http www agisoft com downloads user manuals 59 Chapter 7 Network processing Overview Agisoft PhotoScan can be configured to run on a computer cluster where processing 1s distributed on several computer nodes connected to a local network In such configuration multiple PhotoScan
38. ation saved in the EXIF part of each picture If EXIF data are available you can expect to get the best possible 3D reconstruction However 3D scene can also be reconstructed in the absence of EXIF data In this case PhotoScan assumes that focal length in 35 mm equivalent equals to 50 mm and tries to align the photos in accordance with this assumption If the correct focal length value differs significantly from 50 mm the alignment can give incorrect results or even fail In such cases it is required to specify initial camera calibration manually The details of necessary EXIF tags and instructions for manual setting of the calibration parameters are given in the Camera calibration section Capturing photos Lens distortion The distortion of the lenses being used to capture the photos should be well simulated with the Brown s distortion model Otherwise it is most unlikely that processing results will be accurate Fisheye and ultra wide angle lenses are poorly modeled by the common distortion model implemented in PhotoScan software so it is required to choose proper camera type in Camera Calibration dialog prior to processing Chapter 3 General workflow Processing of images with PhotoScan includes the following main steps e loading photos into PhotoScan e inspecting loaded images removing unnecessary images e aligning photos e building dense point cloud e building mesh 3D polygonal model e generating texture e exporting resu
39. be done through the Custom value of the Polygon count parameter Please note that while too small number of polygons 1s likely to result in too rough mesh too huge custom number over 10 million polygons is likely to cause model visualization problems in external software Additionally the following advanced parameters can be adjusted Interpolation If interpolation mode is Disabled it leads to accurate reconstruction results since only areas corresponding to dense point cloud points are reconstructed Manual hole filling 1s usually required at the post processing step WithEnabled default interpolation mode PhotoScan will interpolate some surface areas within a circle of a certain radius around every dense cloud point As a result some holes can be automatically covered Yet some holes can still be present on the model and are to be filled at the post processing step Enabled default setting is recommended for orthophoto generation In Ext rapolated mode the program generates holeless model with extrapolated geometry Large areas of extra geometry might be generated with this method but they could be easily removed later using selection and cropping tools Point classes Specifies the classes of the dense point cloud to be used for mesh generation For example select only Ground Points to produce a DTM as opposed to a DSM Preliminary dense cloud classification should be performed for this option of mesh generation to be active Note
40. ccur due to slight movements Object scene requirements e Avoid not textured shiny mirror or transparent objects e If still have to shoot shiny objects under a cloudy sky e Avoid unwanted foregrounds e Avoid moving objects within the scene to be reconstructed e Avoid absolutely flat objects or scenes Image preprocessing e PhotoScan operates with the original images So do not crop or geometrically transform 1 e resize or rotate the images Capturing photos Capturing scenarios Generally spending some time planning your shot session might be very useful e Number of photos more than required is better than not enough e Number of blind zones should be minimized since PhotoScan is able to reconstruct only geometry visible from at least two cameras In case of aerial photography the overlap requirement can be put in the following figures 60 of side overlap 80 of forward overlap e Each photo should effectively use the frame size object of interest should take up the maximum area In some cases portrait camera orientation should be used e Do not try to place full object in the image frame if some parts are missing it is not a problem providing that these parts appear on other images e Good lighting is required to achieve better quality of the results yet blinks should be avoided It is recommended to remove sources of light from camera fields of view Avoid using flash e If you are planning to carry o
41. cedure can take up quite a long time You can decrease compression level to speed up the saving process However please note that it will result in a larger project file Compression level setting can be found on the Advanced tab of the Preferences dialog available from Tools menu Project files use relative paths to reference original photos Thus when moving or copying the project file to another location do not forget to move or copy photographs with all the folder structure involved as well Otherwise PhotoScan will fail to run any operation requiring source images although the project file including the reconstructed model will be loaded up correctly Alternatively you can enable Store absolute image paths option on the Advanced tab of the Preferences dialog available from Tools menu Exporting results PhotoScan supports export of processing results in various representations sparse and dense point clouds camera calibration and camera orientation data mesh etc Orthophotos and digital elevation models both DSM and DTM can be generated according to the user requirements Point clouds and camera calibration data can be exported right after photo alignment is completed All other export options are available after the 3D model is built If you are going to export the results point cloud mesh DEM orthophoto for the model that is not referenced please note that the resulting file will be oriented according to a default coordinate s
42. close holes in a 3D model 1 Select Close Holes command from the Tools menu 2 Inthe Close Holes dialog box indicate the maximum size of a hole to be covered with the slider Click on the OK button to start the procedure 3 The progress dialog box will appear displaying the current processing status To cancel processing click on the Cancel button 49 Editing Note e The slider allows to set the size of a hole in relation to the size of the whole model surface Polygon filtering on specified criterion In some cases reconstructed geometry may contain the cloud of small isolated mesh fragments surrounding the main model or big unwanted polygons Mesh filtering based on different criteria helps to select polygons which usually are supposed to be removed PhotoScan supports the following criteria for face filtering Connected component size This filtering criteria allows to select isolated fragments with a certain number of polygons The number of polygons in all isolated components to be selected is set with a slider and is indicated in relation to the number of polygons in the whole model The components are ranged in size so that the selection proceeds from the smallest component to the largest one Polygon size This filtering criteria allows to select polygons up to a certain size The size of the polygons to be selected is set with a slider and is indicated in relation to the size of the whole model This function can be u
43. creases magnification Turns mask shading on or off Switches to marker editing mode Shows hides feature points used for alignment of the photo Ctrl N Ctrl S Ctrl O F11 Ctrl Z Ctrl Y Space Ctrl mouse wheel Ctrl Shift C 7 Ctrl 7 3 Graphical user interface Predefined Views Left Ctrl 3 Front 1 Back Ctrl 1 Rotate View Rotate Up 8 Rotate Down 2 Rotate Left 4 Rotate Right 6 Photo View Next photo according to Photos pane order Page Up Previous photo according to Photos pane order Page Down Navigation mode V Selection Tools Rectangle selection M Intelligent scissors L Intelligent paint P Magic wand W Add selection Ctrl Shift A Subtract selection Ctrl Shift S Invert selection Ctrl Shift I 74 Input formats JPG TIFF PNG BMP OpenEXR PGM PPM MPO SEQ Camera calibration Import formats PhotoScan Lens Calibration xml Australis Camera Parameters txt PhotoModeler Camera Calibration in1 3DM CalibCam Camera Parameters txt CalCam Camera Calibration cal Camera flight log Input format JPG EXIF metadata Character separated values txt MAVinci CSV csv TopoAxis telemetry tel C Astral Bramor log log GCP locations Input format Character separated values txt PhotoScan structure xml Import camera positions PhotoScan xml Appendix B Supported formats Images Undistort formats JP
44. d points of the bar For information on marker placement please refer to the Setting coordinate system section of the manual Select both markers on the Reference pane using Ctrl button Select bCreate Scale Bar command form the Model view context menu The scale bar will be created and an instant added to the Scale Bar list on the Reference pane Switch to the EA view Source mode using the Reference pane toolbar button Double click on the Distance m box next to the newly created scale bar name and enter the known length of the bar in meters To add a scale bar between cameras Select the two cameras on the Workspace or Reference pane using Ctrl button Alternatively the cameras can be selected in the Model view window using selecting tools from the Toolbar Select EbCreate Scale Bar command form the context menu The scale bar will be created and an instant added to the Scale Bar list on the Reference pane Switch to the view Source mode using the Reference pane toolbar button Double click on the Distance m box next to the newly created scale bar name and enter the known length of the bar in meters To run scale bar based optimization l 7 On the Reference pane check all scale bars to be used in optimization procedure Click Settings toolbar button on the Reference pane In the Reference pane Settings dialog box specify the assumed accuracy of scale bars measurements Click OK button Click PF Optimize toolbar bu
45. dialog box To place each photo into a separate group you can use Split Groups command available at the right button click on a calibration group name in the left hand part of the Camera Calibration dialog Camera types PhotoScan supports three major types of camera frame camera spherical camera and fisheye camera Camera type can be set in Camera Calibration dialog box available from Tools menu Frame camera Ifthe source data within a calibration group was shot with a frame camera for successful estimation of camera orientation parameters the information on approximate focal length pix is required Obviously to calculate focal length value in pixel it is enough to know focal length in mm along with the sensor pixel size in mm Normally this data is extracted automatically from the EXIF metadata Fisheye camera If extra wide lenses were used to get the source data standard PhotoScan camera model will not allow to estimate camera parameters successfully Fish Eye camera type setting will initialize implementation of a different camera model to fit ultra wide lens distortions 21 Referencing and measurements Spherical camera In case the source data within a calibration group was shot with a spherical camera camera type setting will be enough for the program to calculate camera orientation parameters No additional information is required except the image in equirectangular representation In case source images lack EXIF data or the
46. dicated with respect to the size of the largest area within the scene that does not contain any ground points e g building or close forest Manual classification of dense cloud points PhotoScan allows to associate all the points within the dense cloud with a certain standard class see LIDAR data classification This provides possibility to diversify export of the processing results with respect to different types of objects within the scene e g DTM for ground mesh for buildings and point cloud for vegetation To assign a class to a group of points DOG pe Switch to Dense Cloud view mode using using amp 5 Dense Cloud toolbar button 2 T oe sb Select points to be placed to a certain class using 1 Rectangle Selection Circle Selection or L Free Form Selection tools To add new points to the current selection hold the Ctrl key during selection of additional points To remove some points from the current selection hold the Shift key during selection of points to be removed 3 Select Assign Class command from the Dense Cloud submenu of the Tools menu 4 Inthe Assign Class dialog box select the source point data for the classification procedure and the targeted class to be assigned to the selected points Click OK button to run classification procedure Dense point cloud classification can be reset with Reset Classification command from Tools Dense Cloud menu Editing model geometry The following mesh editing tools
47. e DEM DSM DTM export Digital elevation models DEMs represent the model surface as a regular grid of height values and are often used for aerial photographic survey data Digital elevation model can be combined with orthophoto to produce a 3D model of the area PhotoScan allows to export both a digital surface model DSM and a digital terrain model DTM A DSM can be exported if you have previously built mesh based on all point classes default DEM export A DTM can be exported for a mesh based on ground points only Note e DEM export is available only for referenced models So make sure that you have set a coordinate system for your model before going to DEM export operation To export DSM l Select Export DEM command from the File menu 2 Inthe Export DEM dialog box specify coordinate system to georeference the DEM 3 Check Write KML file and or Write World file options to create files needed to georeference the DEM in the Google Earth and or a GIS 4 Click Export button to start export 5 Browse the destination folder choose the file type and print in the file name Click Save button 6 The progress dialog box will appear displaying the current processing status To cancel processing click Cancel button To export DIM 1 Reference dense point cloud model For guidance on Setting coordinate system please go to Setting coordinate system 2 Classify Ground Points using the command available from the De
48. e PhotoScan tends to produce 3D models with excessive geometry resolution so it is recommended to perform mesh decimation after geometry computation More information on mesh decimation and other 3D model geometry editing tools is given in the Editing model geometry section Building model texture To generate 3D model texture 1 Select Build Texture command from the Workflow menu 2 Select the desired texture generation parameters in the Build Texture dialog box Click OK button when done 3 The progress dialog box will appear displaying the current processing status To cancel processing click Cancel button Texture mapping modes The texture mapping mode determines how the object texture will be packed in the texture atlas Proper texture mapping mode selection helps to obtain optimal texture packing and consequently better visual quality of the final model 15 General workflow Generic The default mode is the Generic mapping mode it allows to parametrize texture atlas for arbitrary geometry No assumptions regarding the type of the scene to be processed are made program tries to create as uniform texture as possible Adaptive orthophoto In the Adaptive orthophoto mapping mode the object surface is split into the flat part and vertical regions The flat part of the surface is textured using the orthographic projection while vertical regions are textured separately to maintain accurate texture representation in such regio
49. e and can be clicked to solve the problems 3 The progress dialog box will appear displaying the current processing status To cancel processing click on the Cancel button Editing mesh in the external program To export mesh for editing in the external program 1 2 Select Export Model command from the File menu In the Save As dialog box specify the desired mesh format in the Save as type combo box Select the file name to be used for the model and click Save button In the opened dialog box specify additional parameters specific to the selected file format Click OK button when done To import edited mesh 1 2 Select Import Mesh command from the Tools menu In the Open dialog box browse to the file with the edited model and click Open 51 Editing Note e PhotoScan supports loading models in Wavefront OBJ 3DS STL COLLADA Stanford PLY Autodesk FBX Autodesk DXF OpenCTM and U3D file formats only Please make sure to select one of these file formats when exporting model from the external 3D editor e Please be aware that it is important to keep reference information for the model if any 52 Chapter 6 Automation Using chunks When working with typical data sets automation of general processing workflow allows to perform routine operations efficiently PhotoScan allows to assign several processing steps to be run one by one without user intervention thanks to Batch Processing feature Manu
50. e point cloud will be displayed You can inspect alignment results and remove incorrectly positioned photos 1f any To see the matches between any two photos use View Matches command from a photo context menu in the Photos pane Incorrectly positioned photos can be realigned To realign a subset of photos 1 Reset alignment for incorrectly positioned cameras using Reset Camera Alignment command from the photo context menu 2 Set markers at least 4 per photo on these photos and indicate their projections on at least two photos from the already aligned subset PhotoScan will consider these points to be true matches For information on markers placement refer to the Setting coordinate system section 3 Select photos to be realigned and use Align Selected Cameras command from the photo context menu 4 The progress dialog box will appear displaying the current processing status To cancel processing click Cancel button When the alignment step is completed the point cloud and estimated camera positions can be exported for processing with another software if needed Image quality Poor input e g vague photos can influence alignment results badly To help you to exclude poorly focused images from processing PhotoScan suggests automatic image quality estimation feature Images with quality value of less than 0 5 units are recommended to be disabled and thus excluded from photogrammetric processing providing that the rest of the phot
51. e reconstructed is complex with numerous small details on the foreground then it is recommended to set Mi 1d depth filtering mode for important features not to be sorted out If the area to be reconstructed does not contain meaningful small details then it is reasonable to chose Aggressive depth filtering mode to sort out most of the outliers Moderate depth filtering mode brings results that are in between the Mild and Aggressive approaches You can experiment with the setting in case you have doubts which mode to choose Additionally depth filtering can be Disabled But this option is not recommended as the resulting dense cloud could be extremely noisy Building mesh To build a mesh Check the reconstruction volume bounding box To adjust the bounding box use the resize Region and Rotate Region toolbar buttons Rotate the bounding box and then drag corners of the box to the desired positions If the Height field reconstruction method is to be applied it is important to control the position of the red side of the bounding box it defines reconstruction plane In this case make sure that the bounding box is correctly oriented 2 Select the Build Mesh command from the Workflow menu 3 In the Build Mesh dialog box select the desired reconstruction parameters Click OK button when done 4 The progress dialog box will appear displaying the current processing status To cancel processing click Cancel button Reconstruction par
52. each cell the lowest point is detected Triangulation of these points gives the first approximation of the terrain model At the second step new point is added to the ground class providing that it satisfies two conditions it lies within a certain distance from the terrain model and that the angle between terrain model and the line to connect this new point with a point from a ground class is less than a certain angle The second step is repeated while there still are points to be checked The following parameters control automatic ground points classification procedure Max angle deg Determines one of the conditions to be checked while testing a point as a ground one 1 e sets limitation for an angle between terrain model and the line to connect the point in question with a point from a ground class For nearly flat terrain it is recommended to use default value of 15 deg for the parameter It is reasonable to set a higher value if the terrain contains steep slopes Max distance m Determines one of the conditions to be checked while testing a point as a ground one 1 e sets limitation for a distance between the point in question and terrain model In fact this parameter determines the assumption for the maximum variation of the ground elevation at a time 47 Editing Cell size m Determines the size of the cells for point cloud to be divided into as a preparatory step in ground points classification procedure Cell size should be in
53. ease note that the scale bar used for distance measurements must be unchecked on the Reference pane Note e The distance values measured by PhotoScan are displayed in meters Surface area and volume measurement Surface area or volume measurements of the reconstructed 3D model can be performed only after the scale or coordinate system of the scene 1s defined For instructions on setting coordinate system please refer to the Setting coordinate system section of the manual 39 Referencing and measurements To measure surface area and volume 1 Select Measure Area and Volume command from the Tools menu 2 The whole model surface area and volume will be displayed in the Measure Area and Volume dialog box Surface area is measured in square meters while mesh volume is measured in cubic meters Volume measurement can be performed only for the models with closed geometry If there are any holes in the model surface PhotoScan will report zero volume Existing holes in the mesh surface can be filled in before performing volume measurements using Close Holes command from the Tools menu 40 Chapter 5 Editing Using masks Overview Masks are used in PhotoScan to specify the areas on the photos which can otherwise be confusing to the program or lead to incorrect reconstruction results Masks can be applied at the following stages of processing e Alignment of the photos e Building dense point cloud Building 3D model textu
54. econstruction For the information refer to Chapter 2 Capturing photos and Chapter 1 Installation vi Chapter 1 Installation System requirements Minimal configuration e Windows XP or later 32 or 64 bit Mac OS X Snow Leopard or later Debian Ubuntu 64 bit e Intel Core 2 Duo processor or equivalent e 2GB of RAM Recommended configuration e Windows XP or later 64 bit Mac OS X Snow Leopard or later Debian Ubuntu 64 bit e Intel Core 17 processor e 12GB of RAM The number of photos that can be processed by PhotoScan depends on the available RAM and reconstruction parameters used Assuming that a single photo resolution is of the order of 10 MPx 2GB RAM is sufficient to make a model based on 20 to 30 photos 12GB RAM will allow to process up to 200 300 photographs OpenCL acceleration PhotoScan supports accelerated depth maps reconstruction due to the graphics hardware GPU exploiting NVidia GeForce 8xxx series and later ATI Radeon HD 5xxx series and later PhotoScan is likely to be able to utilize processing power of any OpenCL enabled device during Dense Point Cloud generation stage provided that OpenCL drivers for the device are properly installed However because of the large number of various combinations of video chips driver versions and operating systems Agisoft is unable to test and guarantee PhotoScan s compatibility with every device and on every platform The table below lists currently su
55. ections of model geometry can be also removed manually 50 Editing To remove part of the mesh polygons manually l Select rectangle circle or free form selection tool using 1 Rectangle Selection 2 Circle Selection 4 or 4 Free Form Selection toolbar buttons Make the selection using the mouse To add new polygons to the current selection hold the Ctrl key during selection of additional polygons To remove some polygons from the current selection hold the Shift key during selection of polygons to be excluded To delete selected polygons click the A Delete Selection toolbar button or use Delete Selection command from the Edit menu To crop selection to the selected polygons click the Ll Crop Selection toolbar button or use Crop Selection command from the Edit menu To grow or shrink current selection 1 To grow current selection press PageUp key in the selection mode To grow selection by even a larger amount press PageUp while holding Shift key pressed To shrink current selection press PageDown key in the selection mode To shrink selection by even a larger amount press PageDown while holding Shift key pressed Fixing mesh topology PhotoScan is capable of basic mesh topology fixing To fix mesh topology 1 Select View Mesh Statistics command from the Tools menu 2 In the Mesh Statistics dialog box you can inspect mesh parameters If there are any topological problems Fix Topology button will be activ
56. ed on the pane toolbar allow Import export reference coordinates Convert reference coordinates from one system to the other Optimize camera alignment and update data 66 Graphical user interface e Switch between source coordinates estimated coordinates and errors views e Indicate coordinate system and measurement accuracy to be assumed through Settings dialog Timeline pane Timeline pane 1s designed for e Working with multi frame chunks Buttons located on the pane toolbar allow e Add remove frames from chunk e Play stop frame sequence e Adjust frame rate through Settings dialog i Note e To open any pane select a corresponding command from the View menu Menu commands File Menu E New E Open Append El Save Save As Export Model Export Points Export Orthophoto Export DEM Generate Report Upload Model Exit Edit Menu E Undo 67 Creates an empty PhotoScan project Opens PhotoScan project file Appends existing PhotoScan project file to the current one Saves PhotoScan project file Saves PhotoScan project file with a new name Saves 3D model Saves sparse dense point cloud Generates orthophoto based on the reconstructed geometry Generates digital elevation model based on the reconstructed geometry Generates PhotoScan processing report in pdf format Uploads reconstructed model to one of the supported web sites Quits the application
57. ed view of the object is required Orthophoto is often accompanied by the digital elevation model see the next section In order to export orthophoto in the correct orientation it is necessary to set the coordinate system for the model first Since PhotoScan uses original images to build an orthophoto there is no need to build a texture atlas To export Orthophoto 1 Select Export Orthophoto command from the File menu 2 Inthe Export Orthophoto dialog box specify coordinate system to georeference the Orthophoto 3 Select Blending mode to be used for texture mapping for details please see the Building model texture section 4 Check Write KML file and or Write World file options to create files needed to georeference the orthophoto in the Google Earth and or a GIS 5 Click Export button to start export 6 Browse the destination folder choose the file type and print in the file name Click Save button 7 The progress dialog box will appear displaying the current processing status To cancel processing click Cancel button 4 Note e Write KML file option is available only if the model is georeferenced in WGS84 coordinate system due to the fact that Google Earth supports only this coordinate system e World file specifies coordinates of the four angle vertices of the exporting orthophoto This information is already included in GeoTIFF file however you could duplicate it for some 22 General workflow reason If yo
58. els 3ds COLLADA dae Stanford PLY ply STL models stl Autodesk DXF dxf Autodesk FBX fbx Universal 3D models u3d Supported formats Import mesh Export mesh OpenCTM models VRML models wrl Adobe PDF pdf Texture Import texture Export texture JPG JPG TIFF TIFF PNG PNG BMP BMP OpenEXR OpenEXR PGM PPM PGM PPM Orthophoto Export orthophoto GeoTIFF JPG PNG Google Earth KML KMZ Digital elevation model DSM DTM Export DEM GeoTIFF elevation tif Arc Info ASCII Grid asc Band interleaved file format bil XYZ XyZ Sputnik KMZ kmz Tiled models Export tiles PhotoScan Model Tiles tls 77 Appendix C Camera models Agisoft PhotoScan supports several parametric lens distortion models Specific model which approximates best a real distortion field must be selected before processing All models assume a central projection camera Non linear distortions are modeled using Brown s distortion model A camera model specifies the transformation from point coordinates in the local camera coordinate system to the pixel coordinates in the image frame The local camera coordinate system has origin at the camera projection center The Z axis points towards the viewing direction X axis points to the right Y axis points down The image coordinate system has origin at the top left image pixel whith the center of the top left pixel having coordinates 0 5 0 5 The X
59. erform optimization if the final model is to be used for any kind of measurements To optimize camera alignment 1 Set the marker and or camera coordinates to be used for optimization if not done yet 2 SE Click amp Settings toolbar button on the Reference pane and set the coordinate system if not done yet 3 In the Reference pane Settings dialog box specify the assumed accuracy of ground control measurements as well as the assumed accuracy of marker projections on the source photos 4 Indicate relative camera to GPS device coordinates if present in Camera Correction section of the Reference pane Settings dialog box 5 Click OK button Click F Optimize toolbar button In Optimize Camera Alignment dialog box check additional camera parameters to be optimized if needed Click OK button to start optimization 7 After the optimization is complete the georeferencing errors will be updated i Note e Step 4 can be safely skipped if you are using standard GPS not that of superhigh precision e The model data if any is cleared by the optimization procedure You will have to rebuild the model geometry after optimization Generally it is reasonable to run optimization procedure based on markers data only It is due to the fact that GCPs coordinates are measured with significantly higher accuracy compared to GPS data that indicates camera positions Thus markers data are sure to give more precise optimization results Mo
60. g flags can appear next to the photo name NC Not calibrated Notifies that the EXIF data available is not sufficient to estimate the camera focal length In this case PhotoScan assumes that the corresponding photo was taken using 50mm lens 35mm film equivalent General workflow If the actual focal length differs significantly from this value manual calibration may be required More details on manual camera calibration can be found in the Camera calibration section NA Not aligned Notifies that external camera orientation parameters were not estimated for the current photo yet Images loaded to PhotoScan will not be aligned until you perform the next step photos alignment Notifies that Camera Station type was assigned to the group Multispectral imagery PhotoScan supports processing of multispectral images saved as multichannel single page TIFF files The main processing stages for multispectral images are performed based on the master channel which can be selected by the user During orthophoto export all spectral bands are processed together to form a multispectral orthophoto with the same bands as in source images The overall procedure for multispectral imagery processing does not differ from the usual procedure for normal photos except the additional master channel selection step performed after adding images to the project For the best results it is recommended to select the spectral band which is sharp and as much
61. gging it using left mouse button Once the marker location is refined by user the marker icon will change to Hi Note e To list photos where the marker locations are defined select the corresponding marker on the Workspace pane The photos where the marker is placed will be marked with a pe icon on the Photos pane To filter photos by marker use PRFilter by Markers command from the 3D view context menu In those cases when there are hesitations about the features depicted on the photo comparative inspection of two photos can prove to be useful To open two photos in PhotoScan window simultaneously Move to Other Tab Group command is available from photo tab header context menu To open two photos simultaneously 1 In the Photos pane double click on one photo to be opened The photo will be opened in a new tab of the main program window 2 Right click on the tab header and choose Move to Other Tab Group command from the context menu The main program window will be divided into two parts and the photo will be moved to the second part 3 The next photo you will choose to be opened with a double click will be visualized in the active tab group PhotoScan automatically assigns default labels for each newly created marker These labels can be changed using the Rename command from the marker context menu in the Workspace Reference pane Assigning reference coordinates To reference the model the real world coordinates of at leas
62. ght pi Note e Spherical equirectangular camera model doesn t support distortions All distortions should be corrected before loading images in PhotoScan e In case you are capturing panoramas with a rotated frame fisheye camera we recommend to process original images in PhotoScan using camera station function instead of stitching them in external software 79
63. greater number of CTs to be used within the same project To be detected successfully CTs must take up a significant number of pixels on the original photos This leads to a natural limitation of CTs implementation while they generally prove to be useful in close range 37 Referencing and measurements imagery projects aerial photography projects will demand too huge CTs to be placed on the ground for the CTs to be detected correctly Coded targets in workflow Sets of all patterns of CTs supported by PhotoScan can be generated by the program itself To create a printable PDF with coded targets l Select Print Markers command from the Tools menu 2 Specify the CTs type and desired print parameters in Print Markers dialog 3 Click OK Once generated the pattern set can be printed and the CTs can be placed over the scene to be shot and reconstructed When the images with CTs seen on them are uploaded to the program PhotoScan can detect and match the CTs automatically To detect coded targets on source images l Select Detect Markers command from the Tools menu 2 Specify parameters of detector in Detect Markers dialog according to the CTs type 3 Click OK PhotoScan will detect and match CTs and add corresponding markers to the Reference pane CTs generated with PhotoScan software contain even number of sectors However previous versions of PhotoScan software had no restriction of the kind Thus if the project to
64. he photo where the marker projection needs to be added by double clicking on the photos name Switch to the marker editing mode using Pee Markers toolbar button 4 Right click at the point on the photo where the marker projection needs to be placed From the context menu open Place Marker submenu and select the marker instance previously created The marker projection will be added to the current photo 5 Repeat the previous step to place marker projections on other photos if needed To save up time on manual marker placement procedure PhotoScan offers guiding lines feature When a marker is placed on an aligned photo PhotoScan highlights lines which the marker is expected to lie on on the rest of the aligned photos 30 Referencing and measurements Note e If a marker has been placed on at least two aligned images PhotoScan will find the marker projections on the rest of the photos The calculated marker positions will be indicated with 4 icon on the corresponding aligned photos in Photo View mode Automatically defined marker locations can be later refined manually by dragging their projections on the corresponding photos To refine marker location 1 Open the photo where the marker is visible by double clicking on the photo s name Automatically placed marker will be indicated with PP icon Switch to the marker editing mode using Por a Markers toolbar button 3 Move the marker projection to the desired location by dra
65. hoto active chunk or entire Workspace Current photo load mask for the currently opened photo if any Active chunk load masks for active chunk Entire workspace load masks for all chunks in the project Method Specifies the source of the mask data From Alpha load masks from alpha channel of the source photos From File load masks from separate images From Background generate masks from background photos From Model generate masks based on reconstructed model Mask file names not used in From alpha mode Specifies the file name template used to generate mask file names This template can contain special tokens that will be substituted by corresponding data for each photo being processed The following tokens are supported 42 Editing filename file name of the source photo without extension fileext extension of the source photo camera camera label frame frame number filenum sequential number of the mask being imported For example filename _mask png template can be used if masks are available in PNG format and have a_mask suffix Tolerance From Background method only Specifies the tolerance threshold used for background differencing Tolerance value should be set according to the color separation between foreground and background pixels For larger separation higher tolerance values can be used Editing masks Modification of the current mask is performed by adding
66. ing on the first boundary vertex YN Intelligent paint tool Intelligent paint tool is used to paint a selection by the mouse continuously adding small image regions bounded by object boundaries 43 Editing 5 Magic wand tool Magic Wand tool is used to select uniform areas of the image To make a selection with a Magic Wand tool click inside the region to be selected The range of pixel colors selected by Magic Wand is controlled by the tolerance value At lower tolerance values the tool selects fewer colors similar to the pixel you click with the Magic Wand tool Higher value broadens the range of colors selected i Note e To add new area to the current selection hold the Ctrl key during selection of additional area e To reset mask selection on the current photo press Esc key A mask can be inverted using Invert Mask command from the Photo menu The command is active in Photo View only Alternatively you can invert masks either for selected cameras or for all cameras in a chunk using Invert Masks command from a photo context menu on the Photos pane The masks are generated individually for each image If some object should be masked out 1t should be masked out on all photos where that object appears Saving masks Created masks can be also saved for external editing or storage To export masks l Select Export Masks command from the Tools menu 2 Inthe Export Mask dialog select suitable parameters Click
67. is time period 1s spent on matching of detected features across the photos Image pair preselection option may speed up this process due to selection of a subset of image pairs to be matched In the Generic preselection mode the overlapping pairs of photos are selected by matching photos using lower accuracy setting first In the Re ference preselection mode the overlapping pairs of photos are selected basing on the measured camera locations if present For oblique imagery it is recommended to set Ground altitude value in the Settings dialog of the Reference pane to make the preselection procedure more efficient Ground altitude information must be accompanied with yaw pitch roll data for cameras to be input in the Reference pane as well Additionally the following advanced parameters can be adjusted Key point limit The number indicates upper limit of feature points on every image to be taken into account during current processing stage Using zero value allows PhotoScan to find as many key points as possible but it may result in a big number of less reliable points Tie point limit The number indicates upper limit of matching points for every image Using zero value doesn t apply any tie point filtering Constrain features by mask When this option is enabled features detected in the masked image regions are discarded For additional information on the usage of masks please refer to the Using masks section 4 Note e Tie point limit para
68. isoft PhotoScan is an advanced image based 3D modeling solution aimed at creating professional quality 3D content from still images Based on the latest multi view 3D reconstruction technology it operates with arbitrary images and is efficient in both controlled and uncontrolled conditions Photos can be taken from any position providing that the object to be reconstructed is visible on at least two photos Both image alignment and 3D model reconstruction are fully automated How it works Generally the final goal of photographs processing with PhotoScan is to build a textured 3D model The procedure of photographs processing and 3D model construction comprises four main stages 1 The first stage is camera alignment At this stage PhotoScan searches for common points on photographs and matches them as well as it finds the position of the camera for each picture and refines camera calibration parameters As a result a sparse point cloud and a set of camera positions are formed The sparse point cloud represents the results of photo alignment and will not be directly used in the further 3D model construction procedure except for the sparse point cloud based reconstruction method However it can be exported for further usage in external programs For instance the sparse point cloud model can be used in a 3D editor as a reference On the contrary the set of camera positions is required for further 3D model construction by PhotoScan 2 The next
69. just the edge softness level using the slider Click OK button to run the selection procedure To remove selected points use Delete Selection command from the Edit menu or click x Delete Selection toolbar button or simply press Del button on the keyboard Tie point per photo limit Tie point limit parameter could be adjusted before Align photos procedure The number indicates upper limit of matching points for every image Using zero value doesn t apply any tie point filtering The number of tie points can also be reduced after the alignment process with Tie Points Thin Point Cloud command available from Tools menu As a results sparse point cloud will be thinned yet the alignment will be kept unchanged Manual points removal Incorrect points can be also removed manually To remove points from a point cloud manually oo Switch to Sparse Cloud view mode using 89 Point Cloud toolbar button or to Dense Cloud view mode ggg using hu Dense Cloud toolbar button 46 Editing 2 l re ae E ee ee Select points to be removed using 1 Rectangle Selection Circle Selection or Free Form Selection tools To add new points to the current selection hold the Ctrl key during selection of additional points To remove some points from the current selection hold the Shift key during selection of points to be removed 3 To delete selected points click the X Delete Selection toolbar button or select Delete Selection command from the
70. lays help contents Checks if PhotoScan update is available for download Activates deactivates the product using the activation key Displays program information version number and copyright Creates a new PhotoScan project file Opens a PhotoScan project file Saves a PhotoScan project file Undo the last editing operation Redo the previously undone editing operation Navigation tool Rectangle selection tool Circle selection tool Free form selection tool Graphical user interface 3D view commands amp Resize region oe Rotate Region Fi Rotate Object X Delete Selection y Crop Selection 3D view settings oo o0 Point Cloud go 928 Dense Cloud 1 Dense Cloud Classes gt Shaded d solid lt gt Wireframe Textured 1 Show Cameras Eb Show Markers Show Aligned Chunks 0 Reset View Photo view commands Undo E Redo 3 Navigation s Rectangle Selection 5 Intelligent Scissors IN Intelligent Paint A Magic Wand gm Add Selection a EED 72 Volume selection tool Volume rotation tool Model rotation tool Removes selected faces points Crops selected faces points Displays sparse point cloud reconstructed during image alignment Displays dense point cloud model Displays dense point cloud coloured by point classes Displays 3D model in the shaded mode Displays 3D model in the solid mode Displays 3D model in the wireframe mode
71. lder The number of subfolders is equal to the number of frames c All frames from corresponding camera are contained in a separate multilayer image The number of multilayer images is equal to the number of cameras d Corresponding frames from all cameras are contained in a separate multilayer image The number of multilayer images is equal to the number of frames Once the data is properly organized it can be loaded into PhotoScan to form a multiframe chunk The exact procedure will depend on whether the multifolder layout variants a and b or multilayer variants c and d layout is used To create a chunk from multifolder layout Select EdAdd Folder command from the Workflow menu 57 Automation 2 In the Add Folder dialog box browse to the parent folder containing subfolders with images Then click Select Folder button 3 Inthe Add Photos dialog select the suitable data layout For layout a above select Create multiframe cameras from folders as cameras For layout b select Create multiframe cameras from folders as frames 4 Created multiframe chunk will appear on the Workspace pane To create a chunk from multilayer images I Select Add Photos command from the Workflow menu or click A dd Photos toolbar button 2 In the Add Photos dialog box browse to the folder containing multilayer images and select files to be processed Then click Open button 3 Inthe Add Photos dialog select the suitable data lay
72. log using Preferences command from the Tools menu On the Network tab make sure Enable network processing option is turned on and specify the server IP used for client connection in the Host name field In case non default port was configured on a server modify the port value accordingly In case you are going to process a few single frame chunks with large number of photos we recommend to enable fine level task distribution for all supported operations Match Photos Align Cameras Build Dense Cloud In case you are going to process a large number of small chunks or chunks with large number of frames fine level task distribution can be left in disabled state Press OK button when done Prepare project for network processing Open the project file to be processed Click Save As command from the File menu and resave project to a folder on a shared network storage in PhotoScan Unpacked Project psx format Alternatively you can save only particular chunks using Save Chunks command from the Chunk context menu in the Workspace pane Important Please make sure that source images are located on shared network storage and not on a local hard drive Otherwise processing nodes will be unable to load them Start processing 62 Network processing Start processing using corresponding command from the Workflow menu or using Batch Process command to execute a command sequence A network progress dialog should appear displaying curren
73. lts If you are using PhotoScan in the full function not the Demo mode intermediate results of the image processing can be saved at any stage in the form of project files and can be used later The concept of projects and project files is briefly explained in the Saving intermediate results section The list above represents all the necessary steps involved in the construction of a textured 3D model from your photos Some additional tools which you may find to be useful are described in the successive chapters Preferences settings Before starting a project with PhotoScan it is recommended to adjust the program settings for your needs In Preferences dialog General Tab available through the Tools menu you can indicate the path to the PhotoScan log file to be shared with the Agisoft support team in case you face any problems during the processing Here you can also change GUI language to the one that is most convenient for you The options are English Chinese French German Portuguese Russian Spanish On the OpenCL Tab you need to make sure that all OpenCL devices detected by the program are checked PhotoScan exploits GPU processing power that speeds up the process significantly If you have decided to switch on GPUs for photogrammetric data processing with PhotoScan it is recommended to free one physical CPU core per each active GPU for overall control and resource managing tasks Loading photos Before starting any operation it i
74. mera station one 20 General workflow should move those photos to a camera group and assign Camera Station type to 1t For information on camera group refer to Loading photos section To export panorama l Select Export Export Panorama command from the Tools menu 2 Select camera group which panorama should be previewed for 3 Choose panorama orientation in the file with the help of navigation buttons to the right of the preview window in the Export Panorama dialog 4 Set exporting parameters select camera groups which panorama should be exported for and indicate export file name mask 5 Click OK button 6 Browse the destination folder and click Save button 3D model export To export 3D model l Select Export Model command from the File menu 2 Browse the destination folder choose the file type and print in the file name Click Save button 3 In the Export Model dialog specify the coordinate system and indicate export parameters applicable to the selected file type 4 Click OK button to start export 5 The progress dialog box will appear displaying the current processing status To cancel processing click Cancel button Note e If the model is exported in local coordinates PhotoScan can write a KML file for the exported model to be correctly located on Google Earth If a model generated with PhotoScan is to be imported in a 3D editor program for inspection or further editing it might be helpful to
75. meter allows to optimize performance for the task and does not generally effect the quality of the further model Recommended value is 1000 Too high tie point limit value may cause some parts of the dense point cloud model to be missed The reason is that PhotoScan generates depth maps only for pairs of photos for which number of matching points is above certain limit This limit equals to 100 matching points unless moved up by the figure 10 of the maximum number of matching points between the photo in question and other photos only matching points corresponding to the area within the bounding box being considered e The number of tie points can be reduced after the alignment process with Tie Points Thin Point Cloud command available from Tools menu As a results sparse point cloud will be thinned yet the alignment will be kept unchanged Point cloud generation based on imported camera data PhotoScan supports import of external and internal camera orientation parameters Thus if for the project precise camera data is available it is possible to load them into PhotoScan along with the photos to be used as initial information for 3D reconstruction job To import external and internal camera parameters 1 Select Import Cameras command from the Tools menu 2 Select the format of the file to be imported 12 General workflow 3 Browse to the file and click Open button 4 The data will be loaded into the software Camera calibratio
76. n data can be inspected in the Camera Calibration dialog Adjusted tab available from Tools menu If the input file contains some reference data camera position data in some coordinate system the data will be shown on the Reference pane View Estimated tab Camera data can be loaded in one of the following formats PhotoScan xml BINGO dat Bundler out VisionMap Detailed Report txt Once the data is loaded PhotoScan will offer to build point cloud This step involves feature points detection and matching procedures As a result a sparse point cloud 3D representation of the tie points data will be generated Build Point Cloud command is available from Tools Tie Points menu Parameters controlling Build Point Cloud procedure are the same as the ones used at Align Photos step see above Building dense point cloud PhotoScan allows to generate and visualize a dense point cloud model Based on the estimated camera positions the program calculates depth information for each camera to be combined into a single dense point cloud PhotoScan tends to produce extra dense point clouds which are of almost the same density if not denser as LIDAR point clouds A dense point cloud can be edited and classified within PhotoScan environment or exported to an external tool for further analysis To build a dense point cloud Check the reconstruction volume bounding box To adjust the bounding box use the Resize Region and Ca Rotate Region to
77. nce is performed using Timeline pane Although a separate static chunk can be used to process photos for each time moment aggregate multiframe chunks implementation has several advantages e Coordinate systems for individual frames are guaranteed to match There 1s no need to align chunks to each other after processing e Each processing step can be applied to the entire sequence with a user selectable frame range There is no need to use batch processing which simplifies the workflow e Accuracy of photo alignment is better due to the joint processing of photos from the entire sequence e Markers can be tracked automatically through the sequence e Intuitive interface makes navigation through the sequence pretty simple and fast Multiframe chunks can be also efficient with some limitations for processing of disordered photo sets of the same object or even different objects provided that cameras remain static throughout the sequence Managing multiframe chunks Multiframe layout is formed at the moment of adding photos to the chunk It will reflect the data layout used to store image files Therefore it is necessary to organize files on the disk appropriately in advance The following data layouts can be used with PhotoScan a All frames from corresponding camera are contained in a separate subfolder The number of subfolders is equal to the number of cameras b Corresponding frames from all cameras are contained in a separate subfo
78. ne or select Add Chunk command from the Workspace context menu available by right clicking on the root element on the Workspace pane After the chunk is created you may load photos in it align them generate dense point cloud generate mesh surface model build texture atlas export the models at any stage and so on The models in the chunks are not linked with each other The list of all the chunks created in the current project is displayed in the Workspace pane along with flags reflecting their status The following flags can appear next to the chunk name R Referenced Notifies that 3D model in the chunk was referenced Also will appear when two or more chunks are aligned with each other See information on how to reference the model in Setting coordinate system S Scaled Notifies that 3D model in the chunk was scaled based on scale bars information only with no reference coordinates data being present See information on scale bar placement in Optimization of camera alignment section To move photos from one chunk to another simply select them in the list of photos on the Workspace pane and then drag and drop to the target chunk 53 Automation Working with chunks All operations within the chunk are carried out following the common workflow loading photographs aligning them generating dense point cloud building mesh building texture atlas exporting 3D model and so on Note that all these operations are applied to
79. ng formats e BINGO dat saves original intrinsic and extrinsic camera data along with matching points coordinates ORIMA txt PATB ptb Matching points exported from PhotoScan can be used as a basis for AT procedure to be performed in some external software Later on estimated camera data can be imported back to PhotoScan using Import Cameras command from the Tools menu to proceed with 3D model reconstruction procedure Camera calibration and orientation data export To export camera calibration and camera orientation data select Export Cameras command from the Tools menu To export import only camera calibration data select Camera Calibration command from the Tools menu PhotoScan supports camera data export in the following formats e PhotoScan structure file format XML based e Bundler OUT file format e CHAN file format e Boujou TXT file format e Omega Phi Kappa text file format e PATB Exterior orientation e BINGO Exterior orientation e AeroSys Exterior orientation e Inpho project file i Note e Camera data export in Bundler and Boujou file formats will save sparse point cloud data in the same file e Camera data export in Bundler file format would not save distortion coefficients k3 k4 Panorama export PhotoScan is capable of panorama stitching for images taken from the same camera position camera station To indicate for the software that loaded images have been taken from one ca
80. ns When in the Adaptive orthophoto mapping mode program tends to produce more compact texture representation for nearly planar scenes while maintaining good texture quality for vertical surfaces such as walls of the buildings Orthophoto In the Orthophoto mapping mode the whole object surface is textured in the orthographic projection The Orthophoto mapping mode produces even more compact texture representation than the Adaptive orthophoto mode at the expense of texture quality in vertical regions Spherical Spherical mapping mode is appropriate only to a certain class of objects that have a ball like form It allows for continuous texture atlas being exported for this type of objects so that it is much easier to edit it later When generating texture in Spherical mapping mode it is crucial to set the Bounding box properly The whole model should be within the Bounding box The red side of the Bounding box should be under the model it defines the axis of the spherical projection The marks on the front side determine the O meridian Single photo The Single photo mapping mode allows to generate texture from a single photo The photo to be used for texturing can be selected from Texture from list Keep uv The Keep uv mapping mode generates texture atlas using current texture parametrization It can be used to rebuild texture atlas using different resolution or to generate the atlas for the model parametrized in the external software
81. nse Cloud submenu of the Tools menu 3 Build mesh based on Ground Points class only See Advanced settings in the Build Mesh dialog 4 Select Export DEM command from the File menu 5 Inthe Export DEM dialog box specify coordinate system to georeference the DEM 6 Check Write KML file and or Write World file options to create files needed to georeference the DEM in the Google Earth and or a GIS 7 Click Export button to start export 8 Browse the destination folder choose the file type and print in the file name Click Save button 9 The progress dialog box will appear displaying the current processing status To cancel processing click Cancel button 24 General workflow Note Write KML file option is available only if the model is georeferenced in WGS84 coordinate system due to the fact that Google Earth supports only this coordinate system World file specifies coordinates of the four angle vertices of the exporting DEM This information is already included in GeoTIFF elevation data as well as in other supported file formats for DEM export however you could duplicate 1t for some reason PhotoScan allows to export DEM in different planar projections in the same way as it 1s done for orthophoto export See Orthophoto export section If the export file of a fixed size is needed it is possible to to set the length of the longer side of the export file in Max dimension pix parameter The length should be indicated
82. nt photo only PhotoScan will prompt for the actual image instead of image folder Mask file names parameter will not be used in this case Editing point cloud The following point cloud editing tools are available in PhotoScan e Automatic filtering based on specified criterion sparse cloud only e Automatic filtering based on applied masks dense cloud only e Reducing number of points in cloud by setting tie point per photo limit sparse cloud only e Manual points removal i Note e Point cloud editing operation can be undone redone using Undo Redo command from the Edit menu Filtering points based on specified criterion In some cases it may be useful to find out where the points with high reprojection error are located within the sparse cloud or remove points representing high amount of noise Point cloud filtering helps to select such points which usually are supposed to be removed PhotoScan supports the following criteria for point cloud filtering Reprojection error High reprojection error usually indicates poor localization accuracy of the corresponding point projections at the point matching step It is also typical for false matches Removing such points can improve accuracy of the subsequent optimization step Reconstruction uncertainty High reconstruction uncertainty is typical for points reconstructed from nearby photos with small baseline Such points can noticeably deviate from the object surface introducing n
83. ocessing report please refer to Optimization of camera alignment 26 Chapter 4 Referencing and measurements Camera calibration Calibration groups While carrying out photo alignment PhotoScan estimates both internal and external camera orientation parameters including nonlinear radial distortions For the estimation to be successful it is crucial to apply the estimation procedure separately to photos taken with different cameras Once photos have been loaded in the program PhotoScan automatically divides them into calibration groups according to the image resolution and or EXIF metadata like camera type and focal length All the actions described below could and should be applied or not applied to each calibration group individually Calibration groups can be rearranged manually To create a new calibration group 1 Select Camera Calibration command from the Tools menu 2 Inthe Camera Calibration dialog box select photos to be arranged in a new group 3 In the right click context menu choose Create Group command 4 Anew group will be created and depicted on the left hand part of the Camera Calibration dialog box To move photos from one group to another 1 Select Camera Calibration command from the Tools menu 2 Inthe Camera Calibration dialog box choose the source group on the left hand part of the dialog 3 Select photos to be moved and drag them to the target group on the left hand part of the Camera Calibration
84. ogram distribution kit to the desired location on your hard drive Start PhotoScan by running photoscan sh script from the program folder Restrictions of the Demo mode Once PhotoScan is downloaded and installed on your computer you can run it either in the Demo mode or in the full function mode On every start until you enter a serial number it will show a registration box offering two options 1 use PhotoScan in the Demo mode or 2 enter a serial number to confirm the purchase The first choice is set by default so if you are still exploring PhotoScan click the Continue button and PhotoScan will start in the Demo mode The employment of PhotoScan in the Demo mode is not time limited Several functions however are not available in the Demo mode These functions are the following e saving the project Installation e exporting reconstruction results you can only view a 3D model on the screen e some Python commands To use PhotoScan in the full function mode you have to purchase it On purchasing you will get the serial number to enter into the registration box on starting PhotoScan Once the serial number is entered the registration box will not appear again and you will get full access to all functions of the program Chapter 2 Capturing photos Before loading your photographs into PhotoScan you need to take them and select those suitable for 3D model reconstruction Photographs can be taken by any digital camera both metric
85. oise in the point cloud While removal of such points should not affect the accuracy of optimization it may be useful 45 Editing to remove them before building geometry in Point Cloud mode or for better visual appearance of the point cloud Image count PhotoScan reconstruct all the points that are visible at least on two photos However points that are visible only on two photos are likely to be located with poor accuracy Image count filtering enables to remove such unreliable points from the cloud To remove points based on specified criterion s Switch to Point Cloud view mode using 99 Point Cloud toolbar button 2 Select Gradual Selection command from the Edit menu 3 In the Gradual Selection dialog box specify the criterion to be used for filtering Adjust the threshold level using the slider You can observe how the selection changes while dragging the slider Click OK button to finalize the selection To remove selected points use Delete Selection command from the Edit menu or click Delete Selection toolbar button or simply press Del button on the keyboard Filtering points based on applied masks To remove points based on applied masks 1 l l _ BBB Switch to Dense Cloud view mode using 55 Dense Cloud toolbar button 2 Choose Select Masked Points command from the Dense Cloud submenu of the Tools menu 3 In the Select Masked Points dialog box indicate the photos whose masks to be taken into account Ad
86. olbar buttons Rotate the bounding box and then drag corners of the box to the desired positions 2 Select the Build Dense Cloud command from the Workflow menu 3 In the Build Dense Cloud dialog box select the desired reconstruction parameters Click OK button when done 4 The progress dialog box will appear displaying the current processing status To cancel processing click Cancel button Reconstruction parameters Quality Specifies the desired reconstruction quality Higher quality settings can be used to obtain more detailed and accurate geometry but require longer time for processing Interpretation of the quality parameters here is similar to that of accuracy settings given in Photo Alignment section The only difference is that in this case Ultra High quality setting means processing of original photos while each following step implies preprocessing image size downscaling by factor of 4 2 times by each side Additionally the following advanced parameters can be adjusted Depth Filtering modes At the stage of dense point cloud generation reconstruction PhotoScan calculates depth maps for every image Due to some factors like poor texture of some elements of the scene noisy or badly focused images there can be some outliers among the points To sort out the outliers PhotoScan has several built in filtering algorithms that answer the challenges of different projects 13 General workflow If the geometry of the scene to b
87. onto the Reference pane Note e In the data file columns and rows are numbered starting from 0 e If reference coordinates of a marker camera position for a photo are not specified in the loading file the current value will be kept for them e An example of a coordinates data file in the CSV format is given in the next section To assign reference coordinates manually sl Switch to the View Source mode using Bfiview Source button from the Reference pane toolbar To open Reference pane use Reference command from the View menu 2 On the Reference pane double click on x y z cells to assign values to corresponding coordinates 3 Repeat for every marker camera position needed to be specified 4 To remove unnecessary reference coordinates select corresponding items from the list and press Del key Click Ulupdate toolbar button to apply changes and set coordinates To load reference coordinates from GPS EXIF tags Click Etmport EXIF button on the Reference pane To open Reference pane use Reference command from the View menu The reference coordinates data will be loaded into the Reference pane 32 Referencing and measurements After reference coordinates have been assigned PhotoScan automatically estimates coordinates in a local Euclidean system and calculates the referencing errors To see the results switch to the View Estimated or View Errors modes respectively using El view Estimated and Fal view Errors toolbar buttons
88. operation To place a marker using guided approach 1 Open a photo where the marker is visible by double clicking on its name A Switch to the marker editing mode using Por ais Markers toolbar button 3 Right click on the photo at the point corresponding to the marker location 4 Select Create Marker command from the context menu New marker will be created and its projections on the other photos will be automatically defined Note e Ifthe 3D model is not available or the ray at the selected point does not intersect with the model surface the marker projection will be defined on the current photo only e Guided marker placement can be performed in the same way from the 3D view by right clicking on the corresponding point on the model surface and using PBcreate Marker command from the context menu While the accuracy of marker placement in the 3D view 1s usually much lower 1t may be still useful for quickly locating the photos observing the specified location on the model To view the corresponding photos use PRFilter by Markers command again from the 3D view context menu If the command is inactive please make sure that the marker in question is selected on the Reference pane To place a marker using manual approach po Create marker instance using FBada marker button on the Workspace pane or by Add Marker command from the Chunk context menu available by right clicking on the chunk title on the Workspace pane 2 Open t
89. ory to move those photos to a camera group and mark the group as Camera Station It is important that for all the photos in a Camera Station group distances between camera centers were negligibly small compared to the camera object minimal distance 3D model reconstruction will require at least two camera stations with overlapping photos to be present in a chunk However it is possible to export panoramic picture for the data captured from only one camera station Refer to Exporting results section for guidance on panorama export Alternatively camera group structure can be used to manipulate the image data in a chunk easily like applying Disable Enable functions to the whole cameras in a group at once To move photos to a camera group 1 On the Workspace pane or Photos pane select the photos to be moved 2 Right click on the selected photos and choose Move Cameras New Camera Group command from the opened context menu 3 A new group will be added to the active chunk structure and selected photos will be moved to that group 4 Alternatively selected photos can be moved to a camera group created earlier using Move Cameras Camera Group Group_name command from the context menu To mark group as camera station right click on the camera group name and select Set Group Type command from the context menu Inspecting loaded photos Loaded photos are displayed on the Workspace pane along with flags reflecting their status The followin
90. os cover the whole scene to be reconstructed To disable a photo use gt Disable button from the Photos pane toolbar PhotoScan estimates image quality for each input image The value of the parameter is calculated based on the sharpness level of the most focused part of the picture To estimate image quality de Switch to the detailed view in the Photos pane using Details command from the Change menu on the Photos pane toolbar 2 Select all photos to be analyzed on the Photos pane 3 Right button click on the selected photo s and choose Estimate Image Quality command from the context menu 4 Once the analysis procedure is over a figure indicating estimated image quality value will be displayed in the Quality column on the Photos pane Alignment parameters The following parameters control the photo alignment procedure and can be modified in the Align Photos dialog box Accuracy Higher accuracy setting helps to obtain more accurate camera position estimates Lower accuracy setting can be used to get the rough camera positions in a shorter period of time While at High 11 General workflow accuracy setting the software works with the photos of the original size Medium setting cause image downscaling by factor of 4 2 times by each side and at Low accuracy source files are downscaled by further 4 times Pair preselection The alignment process of large photo sets can take a long time A significant portion of th
91. out For layout c above select Create multiframe cameras from files as cameras For layout d select Create multiframe cameras from files as frames 4 Created multiframe chunk will appear on the Workspace pane It is recommended to inspect the loaded frame sequence for errors This can be done by scrolling the frame selector in the Timeline pane and inspecting thumbnails in the Photos pane during scrolling After multiframe chunk is created it can be processed in the same way as normal chunks For multiframe chunks additional processing parameters allowing to select the range of frames to be processed will be provided where appropriate Tracking markers PhotoScan allows to automatically track marker projections through the frames sequence provided that object position doesn t change significantly between frames This greatly simplifies the task of labeling of a moving point if the number of frames is large To track markers through the frame sequence 1 Scroll frame selector in the Timeline pane to the 1st frame Add markers for the Ist frame as described in the Setting coordinate system section 2 Select Track Markers command from the Tools menu 3 Adjust the starting and ending frame indices if necessary Default values correspond to tracking from the current frame to the end of sequence Click OK button to start tracking Check tracked marker locations Automatically tracked markers will be indicated with PP icons In c
92. port Depth command available from photo context menu Model in tiles 1 e mesh split in blocks of a certain size Export Tiles command available from Export Model submenu of the File menu 25 General workflow PhotoScan supports direct uploading of the models to the Sketchfab and Verold resources To publish your model online use Upload Model command from the File menu Processing report generation PhotoScan supports automatic processing report generation in PDF format which contains the basic parameters of the project processing results and accuracy estimates To generate processing report 1 Select Generate Report command from the File menu 2 Browse the destination folder choose the file type and print in the file name Click Save button 3 The progress dialog box will appear displaying the current processing status To cancel processing click Cancel button PhotoScan processing report represents the following data e Orthophoto and digital elevation model sketch e Camera parameters and survey scheme e Image overlap statistics e Camera positioning error estimates e Ground control point error estimates L Note e Complete processing report can be exported only after geometry is reconstructed and georeferenced However Report with information on the alignment procedure results is available for export right after the corresponding processing step e For comments on types of errors indicated in the pr
93. pported devices on Windows platform only We will pay particular attention to possible problems with PhotoScan running on these devices Table 1 1 Supported Desktop GPUs on Windows platform NVIDIA AMD GeForce GTX Titan Radeon R9 290x GeForce GTX 980 Radeon HD 7970 GeForce GTX 780 Radeon HD 6970 GeForce GTX 680 Radeon HD 6950 GeForce GTX 380 Radeon HD 6870 Installation NVIDIA AMD GeForce GTX 570 Radeon HD 5870 GeForce GTX 360 Radeon HD 5850 GeForce GTX 480 Radeon HD 5830 GeForce GTX 470 GeForce GTX 465 GeForce GTX 285 GeForce GTX 280 Although PhotoScan is supposed to be able to utilize other GPU models and being run under a different operating system Agisoft does not guarantee that it will work correctly i Note e OpenCL acceleration can be enabled using OpenCL tab in the Preferences dialog box For each OpenCL device used one physical CPU core should be disabled for optimal performance e Using OpenCL acceleration with mobile or integrated graphics video chips is not recommended because of the low performance of such GPUs Installation procedure Installing PhotoScan on Microsoft Windows To install PhotoScan on Microsoft Windows simply run the downloaded msi file and follow the instructions Installing PhotoScan on Mac OS X Open the downloaded dmg image and drag PhotoScan application to the desired location on your hard drive Installing PhotoScan on Debian Ubuntu Unpack the downloaded archive with a pr
94. re e Exporting Orthophoto Alignment of the photos Masked areas can be excluded during feature point detection Thus the objects on the masked parts of the photos are not taken into account while estimating camera positions This is important in the setups where the object of interest is not static with respect to the scene like when using a turn table to capture the photos Masking may be also useful when the object of interest occupies only a small part of the photo In this case a small number of useful matches can be filtered out mistakenly as a noise among a much greater number of matches between background objects Building dense point cloud While building dense point cloud masked areas are not used in the depth maps computation process Masking can be used to reduce the resulting dense cloud complexity by eliminating the areas on the photos that are not of interest Masked areas are always excluded from processing during dense point cloud and texture generation Stages Let s take for instance a set of photos of some object Along with an object itself on each photo some background areas are present These areas may be useful for more precise camera positioning so it is better to use them while aligning the photos However impact of these areas at the building dense point cloud is exactly opposite the resulting model will contain object of interest and its background Background geometry will consume some part of mesh polygons that
95. re defined by their projections on the source photos The more photos are used to specify marker position the higher is accuracy of marker placement To define marker location within a scene it should be placed on at least 2 photos i Note e Marker placement is not required for setting the coordinate system based on recorded camera coordinates This section can be safely skipped if the coordinate system is to be defined based on recorded camera locations PhotoScan supports two approaches to marker placement manual marker placement and guided marker placement Manual approach implies that the marker projections should be indicated manually on each photo where the marker is visible Manual marker placement does not require 3D model and can be performed even before photo alignment 29 Referencing and measurements In the guided approach marker projection is specified for a single photo only PhotoScan automatically projects the corresponding ray onto the model surface and calculates marker projections on the rest of the photos where marker is visible Marker projections defined automatically on individual photos can be further refined manually Reconstructed 3D model surface is required for the guided approach Guided marker placement usually speeds up the procedure of marker placement significantly and also reduces the chance of incorrect marker placement It is recommended in most cases unless there are any specific reasons preventing this
96. reover rather often GCP and camera coordinates are measured in different coordinate systems that also prevents from using both cameras and markers data in optimization simultaneously In case optimization results does not seem to be satisfactory you can try recalculating with lower values of parameters 1 e assuming ground control measurements to be more accurate Scale bar based optimization Scale bar is program representation of any known distance within the scene It can be a standard ruler or a specially prepared bar of a known length Scale bar is a handy tool to add supportive reference data to your project They can prove to be useful when there is no way to locate ground control points all over the scene Scale bars allow to save field work time since it is significantly easier to place several scale bars with precisely known length then to measure coordinates of a few markers using special equipment In addition PhotoScan allows to place scale bar instances between cameras thus making it possible to 35 Referencing and measurements avoid not only marker but ruler placement within the scene as well Surely scale bar based information will not be enough to set a coordinate system however the information can be successfully used while optimizing the results of photo alignment It will also be enough to perform measurements in PhotoScan software See Performing measurements To add a scale bar Place markers at the start and en
97. rkers representing start and end points of the scale bar If the total reprojection error for some marker seems to be too large it is recommended to inspect reprojection errors for the marker on individual photos The information is available with Show Info command from the marker context menu on the Reference pane Working with coded and non coded targets Overview Coded and non coded targets are specially prepared yet quite simple real world markers that can add up to successful 3D model reconstruction of a scene The difference between coded and non coded targets 1s that while a non coded target looks like an ordinary full circle or a figure circle rectangular with 4 segments the coded target has a ring parted in black and white segments around the central full circle Coded targets advantages and limitations Coded targets CTs can be used as markers to define local coordinate system and scale of the model or as true matches to improve photo alignment procedure PhotoScan functionality includes automatic detection and matching of CTs on source photos which allows to benefit from marker implementation in the project while saving time on manual marker placement Moreover automatic CTs detection and marker placement is more precise then manual marker placement PhotoScan supports three types of circle CTs 12 bit 16 bit and 20 bit While 12 bit pattern is considered to be decoded more precisely 16 bit and 20 bit patterns allow for a
98. rocessing nodes and clients on 2 separate interfaces which can be attached to different physical network interfaces if necessary The server node doesn t initiate any TCP connections itself 60 Network processing Processing nodes Processing nodes perform actual calculations and thus need to be run on fast hardware Each processing node connects to the server on startup and waits for a task to be assigned Once the task 1s available the node starts processing informing the server about the progress When processing is finished the results are stored on shared network storage and the server 1s informed about completion Then a node switches to the next task when 1t becomes available Processing nodes can be added or removed from the cluster as needed Abnormal shutdown of processing node doesn t cause cluster failure in most cases Nevertheless it is highly recommended to stop particular nodes using Agisoft Network Monitor before disconnecting them from the cluster Clients Clients can connect to the server node to control cluster operation or to monitor 1ts status New tasks can be submitted for processing using Agisoft PhotoScan software configured as a network client while cluster monitoring is performed using Agisoft Network Monitor Multiple clients can be connected to the server node simultaneously Cluster setup Before proceeding to the following steps please make sure that shared network storage 1s accessible from all proce
99. rs for the point cloud to be divided into respective rectangular blocks The total volume of the 3D scene is limited with the Bounding Box The whole volume will be split in equal blocks starting from the point with minimum x and y values Note that empty blocks will not be saved In some cases it may be reasonable to edit point cloud before exporting it To read about point cloud editing refer to the Editing point cloud section of the manual PhotoScan supports point cloud export in the following formats e Wavefront OBJ e Stanford PLY e XYZ text file format e ASPRS LAS e ASTM E57 e U3D e potree e PhotoScan OC3 PDF i Note e Saving color information of the point cloud is supported by the PLY E57 LAS and TXT file formats e Saving point normals information is supported by the OBJ PLY and TXT file formats Tie points data export To export matching points 1 Select Export Matches command from the Tools menu 2 Browse the destination folder choose the file type and print in the file name Click Save button 3 Inthe Export Matches dialog box set export parameters Precision value sets the limit to the number of decimal digits in the tie points coordinates to be saved 19 General workflow 4 Click OK button to start export 5 The progress dialog box will appear displaying the current processing status To cancel processing click Cancel button PhotoScan supports matching points data export in the followi
100. ructions on how to get through these operations and descriptions of the parameters controlling each step are explained in the corresponding sections of the Chapter 3 General workflow In some cases however additional actions may be required to get the desired results In some capturing scenarios masking of certain regions of the photos may be required to exclude them from the calculations Application of masks in PhotoScan processing workflow as well as editing options available are Overview described in Chapter 5 Editing Camera calibration issues are discussed in Chapter 4 Referencing and measurements that also describes functionality to reference the results and carry out measurements on the model While Chapter 6 Automation describes opportunities to save up on manual intervention to the processing workflow Chapter 7 Network processing presents guidelines on how to organize distributed processing of the imagery data on several nodes It can take up quite a long time to reconstruct a 3D model PhotoScan allows to export obtained results and save intermediate data in a form of project files at any stage of the process If you are not familiar with the concept of projects its brief description is given at the end of the Chapter 3 General workflow In the manual you can also find instructions on the PhotoScan installation procedure and basic rules for taking good photographs 1 e pictures that provide most necessary information for 3D r
101. s necessary to point out what photos will be used as a source for 3D reconstruction In fact photographs themselves are not loaded into PhotoScan until they are needed So when you load photos you only indicate photographs that will be used for further processing To load a set of photos 7 Select Add Photos command from the Workflow menu or click A dd Photos toolbar button on the Workspace pane 2 In the Add Photos dialog box browse to the folder containing the images and select files to be processed Then click Open button 3 Selected photos will appear on the Workspace pane General workflow Note e PhotoScan accepts the following image formats JPEG TIFF PNG BMP PPM OpenEXR and JPEG Multi Picture Format MPO Photos in any other format will not be shown in the Add Photos dialog box To work with such photos you will need to convert them in one of the supported formats If you have loaded some unwanted photos you can easily remove them at any moment To remove unwanted photos 1 On the Workspace pane select the photos to be removed 2 Right click on the selected photos and choose Remove Items command from the opened context menu or click Men Items toolbar button on the Workspace pane The selected photos will be removed from the working set Camera groups If all the photos or a subset of photos were captured from one camera position camera station for PhotoScan to process them correctly it is obligat
102. sed method is used to align chunks based on estimated camera locations Corresponding cameras should have the same label Accuracy Point based alignment only Higher accuracy setting helps to obtain more accurate chunk alignment results Lower accuracy setting can be used to get the rough chunk alignment in the shorter time Point limit Point based alignment only The number indicates upper limit of feature points on every image to be taken into account during Point based chunks alignment 54 Automation Fix scale Option is to be enabled in case the scales of the models in different chunks were set precisely and should be left unchanged during chunks alignment process Preselect image pairs Point based alignment only The alignment process of many chunks may take a long time A significant portion of this time is spent for matching of detected features across the photos Image pair preselection option can speed up this process by selection of a subset of image pairs to be matched Constrain features by mask Point based alignment only When this option is enabled features detected in the masked image regions are discarded For additional information on the usage of masks refer to the Using masks section Note e Chunk alignment can be performed only for chunks containing aligned photos e There is no need to perform chunk alignment for georeferenced chunks as they are already in the same coordinate frame Merging chunks
103. seful for example in case the geometry was reconstructed in Smooth type and there is a need to remove extra polygons automatically added by PhotoScan to fill the gaps these polygons are often of a larger size that the rest To remove small isolated mesh fragments 1 Select Gradual Selection command from the Edit menu 2 Inthe Gradual Selection dialog box select Connected component size criterion 3 Select the size of isolated components to be removed using the slider You can observe how the selection changes while dragging the slider Click OK button to finalize the selection To remove the selected components use Delete Selection command from the Edit menu or click x Delete Selection toolbar button or simply press Del button on the keyboard To remove large polygons 1 Select Gradual Selection command from the Edit menu 2 Inthe Gradual Selection dialog box select Polygon size criterion 3 Select the size of polygons to be removed using the slider You can observe how the selection changes while dragging the slider Click OK button to finalize the selection To remove the selected components use Delete Selection command from the Edit menu or click x Delete Selection toolbar button or simply press Del button on the keyboard Note that PhotoScan always selects the fragments starting from the smallest ones If the model contains only one component the selection will be empty Manual face removal Unnecessary and excessive s
104. sing node can be started by executing PhotoScan with the following command line arguments 61 Network processing photoscan node dispatch lt ip gt port root prefix node parameter specifies that PhotoScan should be started as a processing node dispatch parameter specifies IP of the server to connect In case port value is omitted the default port 5841 1s used root parameter can be used to specify network storage mount point or prefix path in case it 1s not the same across network Example photoscan node dispatch 10 0 1 1 This command will start processing node using 10 0 1 1 as a server IP with default port 5841 Checking cluster status Start Agisoft Network Monitor application In the host name field enter server IP used for client connections 10 0 1 1 in our example Modify port values in case non default port was specified Click Connect button when done A list of available network nodes currently connected to the server will be displayed in the bottom part of the window Please make sure that all started processing nodes are listed The top part lists tasks currently being processed finished tasks are removed from the list as soon as they are completed The task list will be empty if no processing was started yet Starting network processing 1 Configure Agisoft PhotoScan for network processing Start Agisoft PhotoScan on any computer connected to the cluster network Open Preferences dia
105. splay Switches viewport to one of the predefined views Switches visualisation view between Perspective and Orthographic Enable disable stereo view mode accoridng to the parameters specified in Preferences dialog Shows or hides Workspace pane Shows or hides Timeline pane Graphical user interface View Menu Eb Reference Photos Console Toolbar Workflow Menu fre Add Photos ES Add Folder Align Photos Build Dense Cloud Build Mesh Build Texture Align Chunks Merge Chunks Batch Process Tools Menu Decimate Mesh Close Holes View Mesh Statistics View Mesh UVs Measure Area and Volume Classify Ground Points Assign Class Reset Classification Select Masked Points Build Point Cloud Thin Point Cloud 69 Shows or hides Reference pane Shows or hides Photos pane Shows or hides Console pane Shows or hides Toolbar Loads additional photos to be processed by PhotoScan Loads additional photos from folders to be processed by PhotoScan Generates camera positions and sparse point cloud Generates dense point cloud Generates polygonal model Generates 3D model texture Aligns multiple chunks Merges multiple chunks into the single chunk Opens Batch Process dialog box Decimates mesh to the target face count Closes holes on the model surface Collects and displays mesh statistics Displays mesh UV mapping Displays surf
106. ssing and client nodes using the same absolute path It should be either mounted to the same folder on all nodes Linux or should have the same UNC network path Windows In case such configuration 1s not possible for example in mixed Windows Linux cluster a path prefix can be specified on each node to compensate for the differences Starting server It is recommended to configure server with a static IP address not dynamically assigned one This IP address will be needed for each processing node and client The server process can be started by executing PhotoScan with the following command line arguments photoscan server control lt ip gt port dispatch lt ip gt port root prefix Server parameter specifies that PhotoScan should be started in a server mode control parameter specifies the network interface to be used for communication with clients In case port value is omitted the default port 5840 is used dispatch parameter specifies the network interface to be used for communication with processing nodes In case port value is omitted the default port 5841 is used root parameter can be used to specify network storage mount point or prefix path in case it is not the same across network Example photoscan server control 10 0 1 1 dispatch 10 0 1 1 In this case PhotoScan will use the same interface for both clients and processing nodes with default port values Starting network nodes The proces
107. stage is building dense point cloud Based on the estimated camera positions and pictures themselves a dense point cloud is built by PhotoScan Dense point cloud may be edited and classified prior to export or proceeding to 3D mesh model generation 3 Another stage is building mesh PhotoScan reconstructs a 3D polygonal mesh representing the object surface based on the dense point cloud Additionally there is a Point Cloud based method for fast geometry generation based on the sparse point cloud alone Generally there are two algorithmic methods available in PhotoScan that can be applied to 3D mesh generation Height Field for planar type surfaces Arbitrary for any kind of object Having built the mesh it may be necessary to edit it Some corrections such as mesh decimation removal of detached components closing of holes in the mesh etc can be performed by PhotoScan For more complex editing you have to engage external 3D editor tools PhotoScan allows to export mesh edit it by another software and import it back 4 After geometry i e mesh is reconstructed it can be textured and or used for orthophoto generation Several texturing modes are available in PhotoScan they are described in the corresponding section of this manual About the manual Basically the sequence of actions described above covers most of the data processing needs All these operations are carried out automatically according to the parameters set by user Inst
108. surements Exports masks Exports spherical panorama for camera stations Removes nonlinear distortions by warping source photos Shows camera calibration dialog box Shows camera alignment optimization dialog box Resets reconstruction volume selector to default position based on the sparse point cloud Shows preferences dialog box Opens Python Run Script dialog box Opens next photo from the list in the Photos pane Opens previous photo from the list in the Photos pane Switches to navigation mode Rectangle selection tool Intelligent Scissors selection tool Intelligent Paint selection tool Graphical user interface Photo Menu AR Magic Wand 7 Invert Selection Invert Mask Reset Mask 9 Turn Shading On Off pe Edit Markers oc a oo View Points Help Menu Contents Check for Updates Activate Product Y About PhotoScan Toolbar buttons General commands E New E Open Save 3D view commands e Undo qu Redo 3 Navigation r1 L 4 Rectangle Selection 4 4 Circle Selection a Th Free Form Selection 71 Magic Wand selection tool Adds current selection to the mask Subtracts current selection from the mask Inverts current selection Inverts mask for the current photo Resets mask for the current photo Turns mask shading on or off Switches to marker editing model Shows detected features used for alignment of the current photo Disp
109. t 3 points of the scene should be specified Depending on the requirements the model can be referenced using marker coordinates camera coordinates or both Real world coordinates used for referencing the model along with the type of coordinate system used are specified using the Reference pane 31 Referencing and measurements The model can be located in either local Euclidean coordinates or in georeferenced coordinates For model georeferencing a wide range of various geographic and projected coordinate systems are supported including widely used WGS84 coordinate system Besides almost all coordinate systems from the EPSG registry are supported as well Reference coordinates can be specified in one of the following ways e Loaded from a separate text file using character separated values format e Entered manually in the Reference pane e Loaded from GPS EXIF tags if present To load reference coordinates from a text file Click Import toolbar button on the Reference pane To open Reference pane use Reference command from the View menu Browse to the file containing recorded reference coordinates and click Open button 2 Inthe Import CSV dialog set the coordinate system if the data presents geographical coordinates 3 Select the delimiter and indicate the number of the data column for each coordinate Indicate columns for the orientation data if present 4 Click OK button The reference coordinates data will be loaded
110. t progress 4 Wait for processing to complete You can disconnect from the server at any time using Disconnect button in the Network Progress dialog in case you need to work on other projects Processing will continue in the background To see processing status after you have disconnected from the server simply open corresponding psx project on the network storage Alternatively you can use Agisoft Network Monitor to see processing status for all projects being processed 5 Save processing results as normal psz project Once processing is finished you can resave the project in normal psz format In case you have disconnected from the server you need to open psx project first using Open command from the File menu Then save it to a desired location using Save As command from the File menu and selecting PhotoScan Project Files psz file type Cluster administration Adding processing nodes New processing nodes can be added by starting Agisoft PhotoScan on additional computers in the network node mode as outlined in the Starting network nodes section above Removing processing nodes Aborting or disconnecting processing node during cluster operation is not absolutely safe and can lead to project corruption if performed during final project update at the end of processing Although the chances of this situation are relatively low we strongly recommend against such approach To safely disconnect processing node from the cl
111. t value for pixel size in Export Orthophoto dialog refers to ground sampling resolution thus it is useless to set a smaller value the number of pixels would increase but the effective resolution would not If you have chosen to export orthophoto with a certain pixel size not using Max dimension pix option it is recommended to check estimated Total size pix of the resulting file to be sure that it is not too large to be correctly saved to the targeted file format i Note e Colour correction feature is useful for processing of data sets with extreme brightness variation However please note that color correction process takes up quite a long time so it is recommended to enable the setting only for the data sets that proved to present results of poor quality before The following formats are supported for orthophoto export e JPEG e PNG TIFF e GeoTIFF e Multiresolution Google Earth KML mosaic L Note e Multispectral orthophoto export is supported in GeoTIFF format only When exporting in other formats only master channel will be saved i Note e While exporting Geo TIFF file LZW compression is applied If you need an original file or on the contrary more compressed file you should use external software to do the transformation 23 General workflow However one should be careful with the selected tool not to lose georeferencing information in case of GeoTIFF file during compression decompression procedur
112. tton In Optimize Camera Alignment dialog box check additional camera parameters to be optimized if needed Click OK button to start optimization After the optimization is complete cameras and markers estimated coordinates will be updated as well as all the georeferencing errors To analyze optimization results switch to the View Estimated mode using the Reference pane toolbar button In scale bar section of the Reference pane estimated scale bar distance will be displayed To delete a scale bar 1 Select the scale bar to be deleted on the Reference pane 36 Referencing and measurements 2 Right click on it and chose Remove Scale Bars command from the context menu 3 Click OK for the selected scale bar to be deleted What does the errors in the Reference pane mean Cameras section 1 Error m distance between the input source and estimated positions of the camera 2 Error deg root mean square error calculated over all three orientation angles 3 Error pix root mean square reprojection error calculated over all feature points detected on the photo Markers section 1 Error m distance between the input source and estimated positions of the marker 2 Error pix root mean square reprojection error for the marker calculated over all photos where marker 1s visible Scale Bars section e Error m difference between the input source scale bar length and the measured distance between two cameras or ma
113. u need to export orthophoto in JPEG or PNG file formats and would like to have georeferencing data this informations could be useful PhotoScan allows to export Orthophoto in different planar projections as well To export Orthophoto in a planar projection choose Planar Projection Type in Export Orthophoto dialog You can select projection plane and orientation of the Orthophoto PhotoScan provides an option to project the model to a plane determined by a set of markers if there are no 3 markers in a desired projection plane it can be specified with 2 vectors 1 e 4 markers If the export file of a fixed size is needed it is possible to to set the length of the longer side of the export file in Max dimension pix parameter The length should be indicated in pixels Split in blocks option in the Export Orthophoto dialog can be useful for exporting large projects You can indicate the size of the blocks in pix for the orthophoto to be divided into The whole area will be split in equal blocks starting from the point with minimum x and y values Note that empty blocks will not be saved To export a particular part of the project use Region section of the Export Orthophoto dialog Indicate coordinates of the bottom left and top right corners of the region to be exported in the left and right columns of the textboxes respectively Estimate button allows you to see the coordinates of the bottom left and top right corners of the whole area Defaul
114. uster you need to stop processing on this node using Agisoft Network Monitor first 1 Start Agisoft Network Monitor Make sure the server IP is properly configured in the host name field and click Connect button 2 In the bottom list of network nodes identify the node to be removed From the node menu select Pause command to stop the node after it finishes current job or Stop command to abort processing immediately 3 Wait until the Batch and Progress items for a selected node become empty This indicates that the node has finished processing The status of the node should be Paused 4 Now you can safely disconnect the node by aborting PhotoScan process 63 Appendix A Graphical user interface Application window General view El modeljpsz Agisoft PhotoScan M O File Edit View Workflow Tools Photo Help Deea Jcnoc x u EE 4 4 4 ria Workspace 8 X Model IMG_0008 JPG owk OOX Ta Workspace 1 chunks 216 cameras Chunk 1 216 cameras R gt EN Cameras 216 216 aligned se Tie Points 1 461 637 points Depth Maps 216 Low quality EE Dense Cloud 16 577 254 points d 3D Model 12 faces Perspective 30 Longitude 40 138147 40 138176 40 138278 40 138275 40 138224 Markers Longitude Latitude 47 793178 47 793470 47 793908 47 794150 47 794436 Latitude Altitude 391 780913 391 980780 393 313226 394 678983 394 545738 Altitude Total
115. ut any measurements based on the reconstructed model do not forget to locate at least two markers with a known distance between them on the object Alternatively you could place a ruler within the shooting area e Incase of aerial photography and demand to fulfill georeferencing task even spread of ground control points GCPs at least 10 across the area to be reconstructed 1s required to achieve results of highest quality both in terms of the geometrical precision and georeferencing accuracy Yet Agisoft PhotoScan is able to complete the reconstruction and georeferencing tasks without GCPs too The following figures represent advice on appropriate capturing scenarios Facade Incorrect Facade Correct Capturing photos Interior Incorrect Interior Correct Isolated Object Incorrect Isolated Object Correct IA Restrictions In some cases 1t might be very difficult or even impossible to build a correct 3D model from a set of pictures A short list of typical reasons for photographs unsuitability is given below Modifications of photographs PhotoScan can process only unmodified photos as they were taken by a digital photo camera Processing the photos which were manually cropped or geometrically warped is likely to fail or to produce highly inaccurate results Photometric modifications do not affect reconstruction results Lack of EXIF data To estimate the field of view for each photo PhotoScan uses the inform
116. ystem see axes in the bottom left corner of the Model view 1 e the model can be shown differently from what you Fi see in PhotoScan window To align the model orientation with the default coordinate system use Rotate object button from the Toolbar In some cases editing model geometry in the external software may be required PhotoScan supports model export for editing in external software and then allows to import it back as it is described in the Editing model geometry section of the manual Main export commands are available from the File menu and the rest from the Export submenu of the Tools menu Point cloud export To export sparse or dense point cloud 1 Select Export Points command from the File menu 2 Browse the destination folder choose the file type and print in the file name Click Save button 18 General workflow 3 In the Export Points dialog box select desired Type of point cloud Sparse or Dense 4 Specify the coordinate system and indicate export parameters applicable to the selected file type including the dense cloud classes to be saved 5 Click OK button to start export 6 The progress dialog box will appear displaying the current processing status To cancel processing click Cancel button Split in blocks option in the Export Points dialog can be useful for exporting large projects It is available for referenced models only You can indicate the size of the section in xy plane in mete
117. ystem dialog it is possible to ease searching for the required georeferencing system using Filter option Enter respective EPSG code e g EPSG 4302 to filter the systems To view the estimated geographic coordinates and reference errors switch between the View Estimated and View Errors modes respectively using Fal view Estimated and View Errors toolbar buttons The largest error will be highlighted A click on the column name on the Reference pane sorts the markers and photos by the data in the column At this point you can review the errors and decide whether additional refinement of marker locations is required in case of marker based referencing or if certain reference points should be excluded To save the errors and or estimated coordinates use UIExport toolbar button on the Reference pane To reset a chunk georeferencing use Reset Transform command from the chunk context menu on the Workspace pane R indicator of a chunk being georeferenced will be removed from the chunk name Note e Unchecked reference points on the Reference pane are not used for georeferencing Use context menu to check uncheck selected items 33 Referencing and measurements e After adjusting marker locations on the photos the coordinate system will not be updated automatically It should be updated manually using Udupaate toolbar button on the Reference pane e PhotoScan allows to convert the estimated geographic coordinates into a different

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