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TGA Digital - Photogrammetry Overview (Try it yourself!)
TGA Digital - Photogrammetry Overview (Try it yourself!)
Published: 2015/04/20
Channel: TGA Digital
Star Wars: Battlefront and the Art of Photogrammetry
Star Wars: Battlefront and the Art of Photogrammetry
Published: 2016/08/12
Channel: GDC
Photogrammetry vs 3D Scanner
Photogrammetry vs 3D Scanner
Published: 2017/04/15
Channel: Bracer Jack
Autodesk ReMake - How to Take Photos for Photogrammetry
Autodesk ReMake - How to Take Photos for Photogrammetry
Published: 2016/05/24
Channel: Autodesk ReCap
Create Fast Realistic Photogrammetry Assets
Create Fast Realistic Photogrammetry Assets
Published: 2017/02/07
Channel: Filmstorm
Overview of different photogrammetry programs
Overview of different photogrammetry programs
Published: 2017/03/24
Channel: mardy.it
Environment Art Lookdev Using Unreal & Photogrammetry
Environment Art Lookdev Using Unreal & Photogrammetry
Published: 2017/10/25
Channel: The Gnomon Workshop
Creating 3D Model with Phantom 4, Photogrammetry Mapping. Agisoft PhotoScan
Creating 3D Model with Phantom 4, Photogrammetry Mapping. Agisoft PhotoScan
Published: 2016/03/27
Channel: Marionville Multirotors
Ten24 High Quality Photogrammetry Scanning - Amazing Details (Facial Hair, Skin Pores, Wrinkles...)
Ten24 High Quality Photogrammetry Scanning - Amazing Details (Facial Hair, Skin Pores, Wrinkles...)
Published: 2014/09/15
Channel: CGriver.com
Free Photo Scanning Workflow! (VisualSFM and Meshlab)
Free Photo Scanning Workflow! (VisualSFM and Meshlab)
Published: 2016/10/24
Channel: Gleb Alexandrov
Star Wars Battlefront Photogrammetry
Star Wars Battlefront Photogrammetry
Published: 2016/05/05
Channel: Miike_Snow
A Basic, Practical Photogrammetry Tutorial
A Basic, Practical Photogrammetry Tutorial
Published: 2017/03/07
Channel: Matthew Moult
Photogrammetry I - 01 - Introduction (2015)
Photogrammetry I - 01 - Introduction (2015)
Published: 2015/07/09
Channel: Cyrill Stachniss
free 3D scanning using Photogrammetry
free 3D scanning using Photogrammetry
Published: 2017/07/06
Channel: 3D Print - Tech Design
Fontainebleau - Photogrammetry assets for games using material layering
Fontainebleau - Photogrammetry assets for games using material layering
Published: 2017/08/10
Channel: Unity
Siggraph 2017 - Photogrammetry workflow and the tech behind the de-lighting tool
Siggraph 2017 - Photogrammetry workflow and the tech behind the de-lighting tool
Published: 2017/08/09
Channel: Unity
The best photogrammetry software - Capturing Reality Showcase
The best photogrammetry software - Capturing Reality Showcase
Published: 2017/03/26
Channel: Spaha
MaxSHOT 3D Is Making Photogrammetry Great
MaxSHOT 3D Is Making Photogrammetry Great
Published: 2017/05/16
Channel: Measurement Solutions
Photogrammetry and Unreal Engine 4 with Trendt Boe
Photogrammetry and Unreal Engine 4 with Trendt Boe
Published: 2017/06/17
Channel: Brisbane Unreal Engine
Unreal Engine 4 - Making Of Photogrammetry Graduation Project
Unreal Engine 4 - Making Of Photogrammetry Graduation Project
Published: 2017/06/16
Channel: Danny Art
Faro 3D Conference 2017 - Photogrammetry & laser scanning: taking the best from both worlds
Faro 3D Conference 2017 - Photogrammetry & laser scanning: taking the best from both worlds
Published: 2017/05/09
Channel: 3DflowChannel
001 Photogrammetry Cleanup
001 Photogrammetry Cleanup
Published: 2016/02/12
Channel: Michael Pavlovich
How to Make a 3D Model from any Youtube Video - Photogrammetry
How to Make a 3D Model from any Youtube Video - Photogrammetry
Published: 2016/05/11
Channel: TheHighTechHobbyist
[What is? #1] What is photogrammetry?
[What is? #1] What is photogrammetry?
Published: 2016/01/21
Channel: ClimaByte
EASY Homemade 3D scanner (photogrammetry)
EASY Homemade 3D scanner (photogrammetry)
Published: 2016/06/15
Channel: JAAK LAB
Photogrammetry Building Results - Game ready & PBR Calibrated
Photogrammetry Building Results - Game ready & PBR Calibrated
Published: 2016/10/31
Channel: Guilherme Rambelli
DIY 3D scanner (photogrammetry)
DIY 3D scanner (photogrammetry)
Published: 2017/03/02
Channel: Arthur Ayres
NEW PHOTOGRAMMETRY TEXTURES: SKYLAND - WHITERUN | Skyrim SE Ultra ENB Graphics
NEW PHOTOGRAMMETRY TEXTURES: SKYLAND - WHITERUN | Skyrim SE Ultra ENB Graphics
Published: 2017/10/23
Channel: Ultimate Immersion
Creating 3D Game Models from Video using Photogrammetry
Creating 3D Game Models from Video using Photogrammetry
Published: 2017/11/07
Channel: ThePassiveAggressor
5th Test with the Mavic. More Photogrammetry...
5th Test with the Mavic. More Photogrammetry...
Published: 2017/02/05
Channel: Brandon Riza
Photogrammetry With a UAV Tim Lucas Perth
Photogrammetry With a UAV Tim Lucas Perth
Published: 2013/10/09
Channel: Tim Lucas
iGETT Concept Module Photogrammetry and Aerial Imagery
iGETT Concept Module Photogrammetry and Aerial Imagery
Published: 2015/10/17
Channel: iGETT Remote Sensing Education
Vive Photogrammetry Test - Bathroom Interior
Vive Photogrammetry Test - Bathroom Interior
Published: 2016/03/05
Channel: Matt Sonic
Stump photogrammetry tutorial
Stump photogrammetry tutorial
Published: 2017/10/22
Channel: 3dhd scan
Photogrammetry to VR workflow - speed demo
Photogrammetry to VR workflow - speed demo
Published: 2017/04/07
Channel: Jon Tojek
3D Scanning 2016 Photogrammetry Software Review
3D Scanning 2016 Photogrammetry Software Review
Published: 2016/02/13
Channel: iontrades
NVIDIA’s Reality Capture / Unity Photogrammetry Viewer
NVIDIA’s Reality Capture / Unity Photogrammetry Viewer
Published: 2017/03/09
Channel: NvidiaGameWorks
Photogrammetry I - 02 - Camera Basics (2015)
Photogrammetry I - 02 - Camera Basics (2015)
Published: 2015/07/09
Channel: Cyrill Stachniss
Photogrammetry Rock Textures Update 1
Photogrammetry Rock Textures Update 1
Published: 2017/06/20
Channel: sebvhe
Quadcopter Photogrammetry
Quadcopter Photogrammetry
Published: 2015/02/25
Channel: Parasol
Honda Civic 3D Scan. Photogrammetry. RealityCapture
Honda Civic 3D Scan. Photogrammetry. RealityCapture
Published: 2017/05/05
Channel: Iñigo Bilbao
Photogrammetry: Père-Lachaise Demo
Photogrammetry: Père-Lachaise Demo
Published: 2015/08/16
Channel: Simon
LiDAR for Drone 2017 -  LiDAR, Photogrammetry and TLS, a case study in a Quarry
LiDAR for Drone 2017 - LiDAR, Photogrammetry and TLS, a case study in a Quarry
Published: 2017/09/12
Channel: YellowScan
Photogrammetry turntable.
Photogrammetry turntable.
Published: 2016/07/18
Channel: Colin McFadden
Real places to virtual spaces - an adventure in photogrammetry and virtual reality
Real places to virtual spaces - an adventure in photogrammetry and virtual reality
Published: 2017/01/20
Channel: Bad Munky
Photogrammetry with RealityCapture software, interiors and environments
Photogrammetry with RealityCapture software, interiors and environments
Published: 2015/11/16
Channel: Jon Tojek
Virtual Reality, HDR, Photogrammetry at ICT
Virtual Reality, HDR, Photogrammetry at ICT
Published: 2008/09/08
Channel: mahalodotcom
Photorealistic VR Scene from Realities.io
Photorealistic VR Scene from Realities.io
Published: 2016/03/11
Channel: UploadVR
Lecture 22 | AERIAL PHOTOGRAMMETRY - हिंदी | PART 1
Lecture 22 | AERIAL PHOTOGRAMMETRY - हिंदी | PART 1
Published: 2017/04/23
Channel: Vijay Parmar
Photoscan Tutorial - Photogrammetry (Real Life to 3D Model)
Photoscan Tutorial - Photogrammetry (Real Life to 3D Model)
Published: 2016/06/14
Channel: Twiz
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WIKIPEDIA ARTICLE

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Low altitude aerial photograph for use in photogrammetry. Location: Three Arch Bay, Laguna Beach, CA.

Photogrammetry is the science of making measurements from photographs, especially for recovering the exact positions of surface points. Photogrammetry is as old as modern photography, dating to the mid-19th century and in the simplest example, the distance between two points that lie on a plane parallel to the photographic image plane, can be determined by measuring their distance on the image, if the scale (s) of the image is known.

Photogrammetric analysis may be applied to one photograph, or may use high-speed photography and remote sensing to detect, measure and record complex 2-D and 3-D motion fields by feeding measurements and imagery analysis into computational models in an attempt to successively estimate, with increasing accuracy, the actual, 3-D relative motions.

From its beginning with the stereoplotters used to plot contour lines on topographic maps, it now has a very wide range of uses.

(See also sonar, radar, lidar, etc.).

Photogrammetric methods[edit]

A data model of photogrammetry[1]

Photogrammetry has been defined by the American Society for Photogrammetry and Remote Sensing (ASPRS) as the art, science, and technology of obtaining reliable information about physical objects and the environment through processes of recording, measuring and interpreting photographic images and patterns of recorded radiant electromagnetic energy and other phenomena.[2]

Photogrammetry uses methods from many disciplines, including optics and projective geometry. Digital image capturing and photogrammetric processing includes several well defined stages, which allow to generate 2D or 3D digital models of the object as an end product.[3] The data model on the right shows what type of information can go into and come out of photogrammetric methods.

The 3-D co-ordinates define the locations of object points in the 3-D space. The image co-ordinates define the locations of the object points' images on the film or an electronic imaging device. The exterior orientation[4] of a camera defines its location in space and its view direction. The inner orientation defines the geometric parameters of the imaging process. This is primarily the focal length of the lens, but can also include the description of lens distortions. Further additional observations play an important role: With scale bars, basically a known distance of two points in space, or known fix points, the connection to the basic measuring units is created.

Each of the four main variables can be an input or an output of a photogrammetric method.

Algorithms for photogrammetry typically attempt to minimize the sum of the squares of errors over the coordinates and relative displacements of the reference points. This minimization is known as bundle adjustment and is often performed using the Levenberg–Marquardt algorithm.

Stereophotogrammetry[edit]

A special case, called stereophotogrammetry, involves estimating the three-dimensional coordinates of points on an object employing measurements made in two or more photographic images taken from different positions (see stereoscopy). Common points are identified on each image. A line of sight (or ray) can be constructed from the camera location to the point on the object. It is the intersection of these rays (triangulation) that determines the three-dimensional location of the point. More sophisticated algorithms can exploit other information about the scene that is known a priori, for example symmetries, in some cases allowing reconstructions of 3-D coordinates from only one camera position. Stereophotogrammetry is emerging as a robust non-contacting measurement technique to determine dynamic characteristics and mode shapes of non-rotating[5][6] and rotating structures.[7][8]

Integration[edit]

Photogrammetric data with a dense range data in which scanners complement each other. Photogrammetry is more accurate in the x and y direction while range data are generally more accurate in the z direction. This range data can be supplied by techniques like LiDAR, laser scanners (using time of flight, triangulation or interferometry), white-light digitizers and any other technique that scans an area and returns x, y, z coordinates for multiple discrete points (commonly called "point clouds"). Photos can clearly define the edges of buildings when the point cloud footprint can not. It is beneficial to incorporate the advantages of both systems and integrate them to create a better product.

A 3-D visualization can be created by georeferencing the aerial photos[9][10] and LiDAR data in the same reference frame, orthorectifying the aerial photos, and then draping the orthorectified images on top of the LiDAR grid. It is also possible to create digital terrain models and thus 3-D visualisations using pairs (or multiples) of aerial photographs or satellite (e.g. SPOT satellite imagery). Techniques such as adaptive least squares stereo matching are then used to produce a dense array of correspondences which are transformed through a camera model to produce a dense array of x, y, z data which can be used to produce digital terrain model and orthoimage products. Systems which use these techniques, e.g. the ITG system, were developed in the 1980s and 1990s but have since been supplanted by LiDAR and radar-based approaches, although these techniques may still be useful in deriving elevation models from old aerial photographs or satellite images.

Applications[edit]

Video of a 3-D model of Horatio Nelson bust in Monmouth Museum, produced using photogrammetry
Gibraltar 1 Neanderthal skull 3-D wireframe model, created with 123d Catch

Photogrammetry is used in fields such as topographic mapping, architecture, engineering, manufacturing, quality control, police investigation, and geology. Archaeologists use it to quickly produce plans of large or complex sites, and meteorologists use it to determine the wind speed of tornados when objective weather data cannot be obtained.

It is also used to combine live action with computer-generated imagery in movies post-production; The Matrix is a good example of the use of photogrammetry in film (details are given in the DVD extras). Photogrammetry was used extensively to create photorealistic environmental assets for video games including The Vanishing of Ethan Carter as well as EA DICE's Star Wars Battlefront.[11]

A somewhat similar application is the scanning of objects to automatically make 3D models of them. Some programs like 3DF Zephyr, RealityCapture, Acute3D's Smart3DCapture, now part of Bentley Systems and renamed ContextCapture, Pix4Dmapper, Photoscan, 123D Catch, Bundler toolkit,[12][13] PIXDIM, and Photosketch[14] have been made to allow people to quickly make 3D models using this photogrammetry method. It should be noted though that the produced model often still contains gaps, so additional cleanup with software like MeshLab, netfabb or MeshMixer is often still necessary.[15]

Photogrammetry is also commonly employed in collision engineering, especially with automobiles. When litigation for accidents occurs and engineers need to determine the exact deformation present in the vehicle, it is common for several years to have passed and the only evidence that remains is accident scene photographs taken by the police. Photogrammetry is used to determine how much the car in question was deformed, which relates to the amount of energy required to produce that deformation. The energy can then be used to determine important information about the crash (such as the velocity at time of impact).

Software[edit]

There exist many software packages for photogrammetry; see comparison of photogrammetry software.

See also[edit]

References[edit]

  1. ^ Wiora, Oskar (2001). Optische 3D-Messtechnik : Präzise Gestaltvermessung mit einem erweiterten Streifenprojektionsverfahren (Doctoral dissertation). (Optical 3D-Metrology : Precise Shape Measurement with an extended Fringe Projection Method) (in German). Heidelberg: Ruprechts-Karls-Universität. p. 36. Retrieved 20 October 2017. 
  2. ^ ASPRS online Archived May 20, 2015, at the Wayback Machine.
  3. ^ Sužiedelytė-Visockienė J, Bagdžiūnaitė R, Malys N, Maliene V (2015). "CLOSE-RANGE PHOTOGRAMMETRY ENABLES DOCUMENTATION OF ENVIRONMENT-INDUCED DEFORMATION OF ARCHITECTURAL HERITAGE" (PDF). Environmental Engineering and Management Journal. pp. 1371–1381. 
  4. ^ "Ina Jarve, Natalja Liba. The Effect of Various Principles of External Orientation on the Overall Triangulation Accuracy. TECHNOLOGIJOS MOKSLAI. Estonia. #86, 2010, pp. 59-64" (PDF). 
  5. ^ Sužiedelytė-Visockienė, Jūratė (1 March 2013). "Accuracy analysis of measuring close-range image points using manual and stereo modes". Geodesy and Cartography. 39 (1): 18–22. doi:10.3846/20296991.2013.786881 – via Taylor and Francis+NEJM. 
  6. ^ Baqersad, Javad; Carr, Jennifer; et al. (April 26, 2012). Dynamic characteristics of a wind turbine blade using 3D digital image correlation. Proceedings of SPIE. 8348. 
  7. ^ Lundstrom, Troy; Baqersad, Javad; Niezrecki, Christopher; Avitabile, Peter (1 January 2012). Topics in Modal Analysis II, Volume 6. Springer, New York, NY. pp. 269–275. doi:10.1007/978-1-4614-2419-2_26 – via link.springer.com. 
  8. ^ Lundstrom, Troy; Baqersad, Javad; Niezrecki, Christopher (1 January 2013). Special Topics in Structural Dynamics, Volume 6. Springer, New York, NY. pp. 401–410. doi:10.1007/978-1-4614-6546-1_44 – via link.springer.com. 
  9. ^ A. Sechin. Digital Photogrammetric Systems: Trends and Developments. GeoInformatics. #4, 2014, pp. 32-34.
  10. ^ Ahmadi, FF; Ebadi, H. "An integrated photogrammetric and spatial database management system for producing fully structured data using aerial and remote sensing images". Sensors (Basel). 9: 2320–33. doi:10.3390/s90402320. PMC 3348797Freely accessible. PMID 22574014. 
  11. ^ "How we used Photogrammetry to Capture Every Last Detail for Star Wars™ Battlefront™". 19 May 2015. 
  12. ^ "Photo Tourism". phototour.cs.washington.edu. 
  13. ^ "Building Rome in a Day". grail.cs.washington.edu. 
  14. ^ "Why Google Doesn't NEED Sketchup Anymore - MasterSketchup.com". www.mastersketchup.com. 
  15. ^ MAKE:3D printing by Anna Kaziunas France

External links[edit]

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