20 Implementations and Applications, Databases, QBIC, Video Analysis, Hardware and Software, Inspection

This chapter contains papers that cover a variety of basic topics. Generally the important ideas are the system or the application, not the particular image analysis techniques.

20.1 General Purpose Image Analysis Systems

Chapter Contents (Back)
There are also some unreferenced IU systems with various features, but not wide (continued) use: OBVIUS (Lisp, Heeger and Pentland), and a variety of foreign systems. Systems such as ImageCalc and KBVision have user's guides. Environments. Image Analysis Environments.

OpenCV,
IntelSeptember 2009. Code, Image Processing. Code, Computer Vision. Code, Image Processing, C. Code, Open Source.
WWW Link. And the Source Forge reference:
WWW Link. Version 2.0 released in 2009. C and C++ interfaces. Original version was August 2000. The standard open source code for many basic computer vision tasks. Support and development from
See also Willow Garage. BibRef 0909

Fiji Image Processing Package,
2016 Code, Image Processing. Code, Computer Vision. Code, Image Processing, Java.
WWW Link. Fiji is an image processing package: a "batteries-included" distribution of ImageJ, bundling a lot of plugins which facilitate scientific image analysis.

Bradski, G.R.[Gary Rost], Kaehler, A.[Adrian],
Learning OpenCV Computer Vision with the OpenCV Library,
O'ReillySeptember 2008. ISBN 10: 0-596-51613-4, ISBN 13: 9780596516130.
WWW Link. Buy this book: Learning OpenCV: Computer Vision with the OpenCV Library BibRef 0809

ImageJ: Image Processing and Analysis in Java,
2007. Code, Image Processing. Code, Image Processing, Java.
WWW Link. A set of public domain image (US Government code) analysis routines in Java.

ImageJ-Plugins -- Various Plugins for the image manipulation software ImageJ,
2007. Code, Image Processing. Code, Image Processing, Java.
HTML Version.
See also University of Freiburg.

CMU VASC Image Database,
Online1997
WWW Link. Dataset, Motion. CMU has a collection of image datasets available. These include a number of motion sequences, stereo (with and without ground truth), faces and expressions, and cars. BibRef 9700

Image Processing Library 98,
2003.
WWW Link. Code, Image Analysis. Code, Image Processing, C++. A platform independent image manipulating C/C++ library.

Recognition And Vision Library,
2003.
WWW Link. Code, Image Analysis. Code, Image Processing, C++. C++ class library together with a range of computer vision, pattern recognition, audio and supporting tools.
See also University of Surrey.

C++ Template Image Processing Library,
2000.
WWW Link. Code, Image Analysis. Code, Image Processing, C++. Code, Open Source. INRIA derived code.

IT++ Mathematical, Signal Processing and Communication Routines,
2007
WWW Link. Code, Signal Processing. Code, Signal Processing, C++.

ImageLib: An Image Processing C++ Class Library,
2000.
WWW Link. Code, Image Analysis. Code, Image Processing, C++. C++ class library providing image processing and related facilities.
See also University of Cape Town.

NeatVision,
2000. Code, Image Analysis.
WWW Link. Code, Image Processing, Java. NeatVision is a free Java based image analysis and software development environment, which provides high level access to a wide range of image processing algorithms. From:
See also Dublin City University, Machine Vision Group.

The Delft Image Processing library,
2000.
WWW Link. Code, Image Analysis. Code, Image Analysis, Matlab. Code, Image Analysis, C. DIPimage is a MATLAB toolbox. DIPlib is a platform independent scientific image processing library written in C. Formerly ImLib3D From:
See also Delft University of Technology.

Image Labs International,
2006.
WWW Link. Vendor, Image Analysis. Sells hardware and software for industrial vision applications. Formerly known as: Vision 1. A part of Reflect Scientific

Intelligent Perception,
2006.
WWW Link. Vendor, Image Analysis. Develops software for digital image analysis, computer vision, and image manipulation. They provide a developer toolkit for programming and the Pixcavator platform.

LibCVD: computer vision library,
2009.
HTML Version. Code, Image Analysis. Code, Image Processing, C++. Portable C++ library providing image processing and related facilities.

PEIPA Computer Vision Software,
Online2004.
HTML Version. Code, Computer Vision. Dataset. Pilot European Image Processing Archive. This lists a number of sources for various alogrithms. They also include pointers to the usual set of image databases. BibRef 0400

LTI-Lib,
Online2005.
WWW Link. Code, Image Processing. Code, Image Processing, C++. Code, Open Source. Object oriented library with algorithms and data structures frequently used in image processing and computer vision.
See also Aachen University of Technology. BibRef 0500

Mimas,
January, 2006.
WWW Link. Code, Image Processing. Code, Image Processing, C++. Code, Open Source. C++ toolkit, corners, etc.

Imsense Limited,
2009 Vendor, Image Analysis.
WWW Link. Spun off from University of East Anglia.
See also University of East Anglia.

MVTec Software GmbH,
1998 Vendor, Image Analysis. Vendor, Object Recotnition. System, Halcon.
WWW Link. Originally the Horus system (form TU-Munich), Also Halcon
WWW Link.
See also Technical University Munich.

MediaCybernetics,
2005. Vendor, Software. Code, Image Processing.
WWW Link. A set of Image Analysis products, especially applied to microscope images and scientific applications.

Cognex Inc.,
1982. Various sensors and systems
WWW Link. Vendor, Image Analysis. Vendor, Inspection.

Epix Imaging,
1983. Various sensors and systems
WWW Link. Vendor, Image Analysis. Vendor, Inspection.

Bioimage Suite,
1998.
WWW Link. Code, Image Processing. Yale group. Biomedical imaging and visualization.

Illuxtech,
2012
WWW Link. Vendor, Image Analysis. 1205
Apps, cloud computer vision service.

Insight Segmentation and Registration Toolkit (ITK),
2022.
WWW Link. Code, Medical Image Analysis. NIH toolkit for medical processing.

Noesis Vision,
2007.
HTML Version. Code, Image Analysis. Primarily bio, chemistry, but others. Visilog product

Generic Programming for Computer Vision: The VIGRA Computer Vision Library,
OnlineDecember, 2006. Code, Image Processing. Code, Image Processing, C++. C++ implementation, using standard template library. BibRef 0612

Torch3vision: Machine Vision Library,
2007
WWW Link. Code, Image Analysis. Derived from the machine learning library:
See also Torch: Machine-Learning Library.

Scoprion Vision Software,
2005
WWW Link. Vendor, Image Analysis. 2D and 3D systems for inspection and surveillance, or including in other systems.

Tordivel AS,
2005
WWW Link. Vendor, Image Analysis. 2D and 3D systems for inspection and surveillance, or including in other systems. The Tordivel site is Norwegian. The English link is the Scorpion Site.
WWW Link. Or the news/blog site:
WWW Link.

Microsoft Kinect SDK,
2011
WWW Link. Vendor, Image Analysis. Code, Image Analysis. Early version of SDK for noncommercial application development.
See also Microsoft Kinect.

The Mobile Robot Programming Toolkit,
2011 Code, Image Processing. Code, Image Processing, C++.
WWW Link. Localization, Simultaneous Localization and Mapping (SLAM), computer vision and motion planning (obstacle avoidance). From: University of Malaga.
See also University of Malaga.

QCV,
2012 Code, Image Processing. Code, Image Processing, C++.
WWW Link. A computer vision framework based on Qt and OpenCV that provides an interface to display, analyze and run computer vision algorithms.

Walrus Vision Toolbox,
2014 Code, Image Processing.
WWW Link. Vision toolbox for image processing. Device controllers, pattern recognition.

Core Imaging Library (CIL),
2019
WWW Link. Code, Image Analysis. Code, CT Data Analysis. The Core Imaging Library (CIL) is a set of modules for each process involved in the data analysis workflow of the CT datasets.

DgiStreammer,
2021 Code, Image Processing.
WWW Link. 2107
Imaging/video pipelines, including the use of deeplearning blocks such as deepstream, and deploy it anywhere.

Köthe, U.,
Reusable Software in Computer Vision,
HCVA99(Vol. 3). The ideas behind the VIGRA library.
See also Generic Programming for Computer Vision: The VIGRA Computer Vision Library. BibRef 9900

Holden, A.D.C., Morrin, II, T.H.,
A feasible computer system for grey-level, pictorial pattern recognition,
PR(7), No. 3, September 1975, pp. 147-156.
Elsevier DOI 0309
BibRef

Tanimoto, S.L.[Steven L.],
Advances in Software Engineering and Their Relations to Pattern Recognition and Image Processing,
PR(15), No. 3, 1982, pp. 113-120.
Elsevier DOI BibRef 8200

Gudmundsson, B.[Björn],
An Interactive High-Level Language System for Picture Processing,
CGIP(18), No. 4, April 1982, pp. 392-403.
Elsevier DOI BibRef 8204

Stevens, W.R., Hunt, B.R.,
Software Pipelines in Image Processing,
CGIP(20), No. 1, September 1982, pp. 90-95.
Elsevier DOI BibRef 8209

Lawton, D.T., and McConnell, C.C.,
Image Understanding Environments,
PIEEE(76), No. 8, August 1988, pp. 1036-1050. Survey, Systems. Systems, Survey. General discussion of IU Environments in terms of components, representations, programming constructs, data bases, and interfaces with examples (mostly from ADS systems). BibRef 8808

Holmes, W.S., Leland, H.R., Richmond, G.E.,
Design of a Photo Interpretation Automaton,
EJCC62(27-35). BibRef 6200

Haralick, R.M.[Robert M.],
Image Access Protocol for Image Processing Software,
SE(3), No. 2, March, 1977, pp. 190-192. BibRef 7703

Haralick, R.M., Minden, G.,
KANDIDATS: An Interactive Image Processing System,
CGIP(8), No. 1, August 1978, pp. 1-15. BibRef 7808

Haralick, R.M., Vaidya, P.D., Shapiro, L.G., Minden, G.,
Design and Architectural Implications of a Spatial Information System,
TC(31), No. 10, October, 1982, pp. 1025-1031. BibRef 8210

Konstantinides, K., Rasure, J.R.,
The Khoros Software Development Environment for Image and Signal Processing,
IP(3), No. 3, May 1994, pp. 243-252.
IEEE DOI System: Khoros. Khoros. General overview of the Khoros system, image processing and visual programming environment. An online tutorial is available:
WWW Link. BibRef 9405

Rasure, J.R., and Williams, C.,
An Integrated Visual Language and Software Development Environment,
JVLC(2), 1991, pp. 217-246. BibRef 9100

Young, M., Argiro, D., and Kubica, S.,
Cantata: Visual Programming Environment for the Khoros System,
Computer Graphics(29), No. 2, 1995, pp. 22-24. BibRef 9500

Herbst, N.M., Will, P.M.,
An Experimental Laboratory for Pattern Recognition and Signal Processing,
CACM(15), No. 4, April 1972, pp. 231-244. BibRef 7204

Jarvis, R.A.,
An Interactive Minicomputer Laboratory for Graphics, Image Processing, and Pattern Recognition,
Computer(7), No. 10, October 1974, pp. 49-60. BibRef 7410

Jarvis, R.A.,
A Simple Hand/Eye Experimental Set-Up for Computer Vision Research,
Computer(10), No. 10, October 1977, pp. 65-69. BibRef 7710

Jarvis, R.A.,
A Computer Vision and Robotics Laboratory,
Computer(15), No. 6, June 1982, pp. 8-23. A long description of the system they use. BibRef 8206

Lillestrand, R.L., Hoyt, R.R.,
The Design of Advanced Digital Image Processing Systems,
PhEng(40), 1974, pp. 1201-1218. BibRef 7400

Wade, J.G., Lawrence, D.H., Rendle, M.,
Low-Cost Remote Sensing Experinments within an Educational Environment,
IVC(2), No. 1, February 1984, pp. 3-12.
Elsevier DOI BibRef 8402

Bentz, B.[Bryan],
An automatic programming system for signal processing applications,
PR(18), No. 6, 1985, pp. 491-495.
Elsevier DOI 0309
BibRef

Anderson, J.A.D.W., Baker, K.D., Sullivan, G.D.,
Model: A Poplog Package to Support Model-Based Vision,
IVC(4), No. 2, May 1986, pp. 115-119.
Elsevier DOI BibRef 8605

Sevigny, L., Hedegaard, C., Gambotto, J.P., Bohner, M., Grinaker, S., Lloyd, D.E., Garn, L.E., Knecht, J.A.,
A Tape Format for Transferral of Image Data and Source Programs,
CVGIP(41), No. 1, January 1988, pp. 107-113.
Elsevier DOI BibRef 8801
Earlier: A4 Only: CGIP(11), No. 2, October 1979, pp. 185-191.
Elsevier DOI BibRef

Nirmal, N.[Nalinakshi], Rama, R.,
Picture Generation and Developmental Matrix Systems,
CVGIP(43), No. 1, July 1988, pp. 67-80.
Elsevier DOI BibRef 8807

Batchelor, B.G.,
Intelligent Image Processing in Prolog,
New York: Springer1991, 372pp. BibRef 9100 Book BibRef

Batchelor, B.G.,
Merging The Autoview Image Processing Language With Prolog,
IVC(4), No. 4, November 1986, pp. 189-196.
Elsevier DOI BibRef 8611

Heipke, C.,
State-Of-The-Art Of Digital Photogrammetric Workstations for Topographic Applications,
PhEngRS(61), No. 1, January 1995, pp. 49-56. BibRef 9501

Feldman, J., Feldman, G.M., Falk, G., Grape, G.R., Pearlman, J., Sobel, I., and Tenenbaum, J.M.,
The Stanford Hand-Eye Project,
IJCAI69(521-526). BibRef 6900

Williams, T.D.,
Image Understanding Tools,
ICPR90(II: 606-610).
IEEE DOI System: KBVision. The KBVision Environment. BibRef 9000

Lawton, D.T., and Mead, D.M.,
A Modular Object Oriented Image Understanding Environment,
ICPR90(II: 611-616).
IEEE DOI Smalltalk experiments. BibRef 9000

Hanson, A.J., and Fischler, M.A.,
The DARPA/DMA Image Understanding Testbed,
DARPA82(342-351). BibRef 8200

Cecchini, R., del Bimbo, A.,
A Programming Environment for Imaging Applications,
PRL(14), 1993, pp. 817-824. BibRef 9300

Brumfitt, P.J.,
Environments for Image Processing Algorithm Development,
IVC(2), No. 4, November 1984, pp. 198-203.
Elsevier DOI BibRef 8411

Bailey, D.G., Hodgson, R.M.,
VIPS: A Digital Image Processing Algorithm Development Environment,
IVC(6), No. 3, August 1988, pp. 176-184.
Elsevier DOI Code, Image Processing.
WWW Link.
See also University of Southampton. BibRef 8808

Heeger, D.J., Simoncelli, E.P., Sokolov, M.,
OBVIUS: Object-Based Vision and Image Understanding System,
Vismod121, April 1989. BibRef 8904

Cappellini, V., del Bimbo, A., Nesi, P.,
Integrating Object Oriented Programming Paradigm Concepts in Designing a Vision and Pattern Recognition System Architecture,
ICPR90(II: 572-575).
IEEE DOI BibRef 9000

Chassery, J.M., Bourrel, G.,
An Image Package Software: IPS -- Design and Abilities,
ICPR86(913-915). BibRef 8600

Flickner, M.D., Lavin, M., and Das, S.,
An Object Oriented Language for Image and Vision Execution (OLIVE),
ICPR90(II: 561-571).
IEEE DOI BibRef 9000
Earlier: A2, A1 only: Conference- Workshop on Tools for Artificial Intelligence: Architectures, Languages, and Algorithms 1989, pp. 598-607. Fairfax, VA. The IBM Almaden vision system. BibRef

Pentland, A.P., Essa, I.A., Friedman, M., Horowitz, B., Scaroff, S., and Starner, T.E.,
The ThingWorld Modeling System,
Vismod-145, October 1990. BibRef 9010

Connolly, C.I., Kapur, D., Mundy, J.L., Weiss, R.,
Geometer: A System for Modeling and Algebraic Manipulation,
DARPA89(797-804). System: Geometer. BibRef 8900

McConnell, C.C., Lawton, D.T.,
IU Software Environments,
DARPA88(666-677). BibRef 8800

Nevernov, I.[Igor], Sartore, M.[Marco], Galletti, R.[Riccardo],
Object-Oriented Data Model for Scanning Probe Microscopy Image-Processing,
IVC(14), No. 6, June 15 1996, pp. 435-443.
Elsevier DOI 9607
BibRef

Lee, C.A., Kesselman, C., Schwab, S.,
Near-Real-Time Satellite Image-Processing: Metacomputing in C++,
IEEE_CGA(16), No. 4, July 1996, pp. 79-84. 9607
BibRef

Feher, A., Zabusky, N.J.,
An Interactive Imaging Environment for Scientific Visualization and Quantification (Visiometrics),
IJIST(7), No. 2, Summer 1996, pp. 121-130. 9607
BibRef

Tomita, F.,
Interactive and Automatic Image Recognition System,
MVA(1), 1988, pp. 59-69. BibRef 8800

Graham, L.N., Ellison, K., Riddell, C.S.,
The Architecture of a Softcopy Photogrammetry System,
PhEngRS(63), No. 8, August 1997, pp. 1013-1020. 9708
BibRef

Eckstein, W., Steger, C.T.,
Architecture for Computer Vision Application Development within the Horus System,
JEI(6), No. 2, April 1997, pp. 244-261. 9807
BibRef

Hager, G.D.[Gregory D.], Toyama, K.[Kentaro],
X Vision: A Portable Substrate for Real-Time Vision Applications,
CVIU(69), No. 1, January 1998, pp. 23-37.
DOI Link BibRef 9801
Earlier:
X Vision: Combining Image Warping and Geometric Constraints for Fast Visual Tracking,
ECCV96(II:507-517).
Springer DOI BibRef

Christensen, H.I., Crowley, J.L.,
Experimental Environments in Computer Vision and Image Analysis,
World ScientificSingapore, 1994. ISBN: 981-02-1510-X. Intro available:
HTML Version. BibRef 9400

Crowley, J.L., and Christensen, H.I.,
Vision as Process: Basic Research on Computer Vision Systems,
Springer-Verlag1995. ISBN: 3-540-58143-X ISBN: 0-387-58143-X The book presents the results of the ESPRIT project BR 3038/7108 "Vision as Process" initiated 1989. BibRef 9500

Ohbuchi, R., Miyazawa, T., Aono, M., Koide, A., Kimura, M., and Yoshida, R.,
Integrated medical-image system for cancer research and treatment,
IBMRD(40), No. 2, March 1996, pp. 185-210. BibRef 9603

Kishi, G.T.,
The IBM 3495 robotics and vision system,
IBMRD(40), No. 3, May 1996, pp. 301-310. BibRef 9605

Christensen, H.I.[Henrik I.], Crowley, J.L.[James L.],
Computer Vision Systems,
Videre(1), No. 4, Winter 2000, pp. xx-yy. 0005
BibRef

Drap, P., Grussenmeyer, P.,
A digital photogrammetric workstation on the WEB,
PandRS(55), No. 1, February 2000, pp. 48-58. 0004
BibRef

Elder, J.H.[James H.], Goldberg, R.M.[Richard M.],
Image Editing in the Contour Domain,
PAMI(23), No. 3, March 2001, pp. 291-296.
IEEE DOI 0103
BibRef
Earlier: CVPR98(374-381).
IEEE DOI Primitive editing unit is the edge, not the pixel. From a scale-space representation and edge model the image can be recreated so use these properties for editing. ICE System BibRef

Levkovilz, R., Falikman, D., Zibulevsky, M., Ben-Tal, A., Nemirovski, A.,
The design and implementation of COSEN, an iterative algorithm for fully 3-D listmode data,
MedImg(20), No. 7, July 2001, pp. 633-642.
IEEE Top Reference. 0110
BibRef

Tino, P.[Peter], Nabney, I.T.[Ian T.],
Hierarchical GTM: Constructing Localized Nonlinear Projection Manifolds in a Principled Way,
PAMI(24), No. 5, May 2002, pp. 639-656.
IEEE DOI 0205
Visualization of multi-dimensional data. BibRef

Schiele, B.[Bernt], Sagerer, G.[Gerhard],
Computer vision systems,
MVA(14), No. 1, 2003, pp. 3-4. Special issue introduction.
Springer DOI 0304
BibRef

Kjeldsen, R.[Rick], Levas, A.[Anthony], Pinhanez, C.[Claudio],
Dynamically Reconfigurable Vision-Based User Interfaces,
MVA(16), No. 1, December 2004, pp. 6-12.
Springer DOI 0501
BibRef
Earlier: CVS03(323 ff).
Springer DOI 0306
BibRef

Scholten, F., Gwinner, K., Roatsch, T., Matz, K.D., Wählisch, M., Giese, B., Oberst, J., Jaumann, R., Neukum, G.,
Mars Express HRSC Data Processing: Methods and Operational Aspects,
PhEngRS(71), No. 10, October 2005, pp. 1143-1152.
WWW Link. 0602
Automated multi-stereo processing techniques have been developed for the generation of high-resolution multi-spectral orthophoto imagery and digital terrain models within days after data acquisition.
See also HRSC on Mars Express: Photogrammetric and Cartographic Research. BibRef

Head, III, J.W.[James W.], van Dam, A.[Andries], Fulcomer, S.G.[Samuel G.], Forsberg, A.[Andrew], Prabhat, Rosser, G.[Graham], Milkovich, S.[Sarah],
ADVISER: Immersive Scientific Visualization Applied to Mars Research and Exploration,
PhEngRS(71), No. 10, October 2005, pp. 1219-1226.
WWW Link. 0602
An advanced problem-solving environment bridging the gap between the cartography and geologic investigations of Mars with advanced visualization techniquesand an immersive virtual reality environment. BibRef

Kovesi, P.[Peter],
MATLAB and Octave Functions Software for Computer Vision and Image Processing,
Online2007. Code, Computer Vision. Code, Computer Vision, Matlab.
WWW Link.
See also University of Western Australia. BibRef 0700

Kehtarnavaz, N.[Nasser],
Special issue: Real-time imaging,
JVCIR(17), No. 3, June 2006, pp. 553.
Elsevier DOI 0711
BibRef

Guerra, C., Cantoni, V.,
Scanning the issue: Special issue on technology and tools for visual perception,
PIEEE(90), No. 7, July 2002, pp. 1091-1093.
IEEE DOI 0207
Robotic system tools. BibRef

Ellenby, J.[John], Ellenby, T.[Thomas], Ellenby, P.[Peter], Page, J.[Joseph],
Graphical user interfaces for computer vision systems,
US_Patent6,414,696, Jul 2, 2002
WWW Link. BibRef 0207

Ellenby, J.[John], Ellenby, T.[Thomas], Ellenby, P.[Peter],
Vision system computer modeling apparatus including interaction with real scenes with respect to perspective and spatial relationship as measured in real-time,
US_Patent6,690,370, Feb 10, 2004
WWW Link. BibRef 0402

Ellenby, T.W.[Thomas William], Ellenby, J.[John], Ellenby, P.M.[Peter Malcolm], Jay, J.A.[Jeffrey Alan], Page, J.[Joseph],
Pointing systems for addressing objects,
US_Patent7,031,875, Apr 18, 2006
WWW Link. BibRef 0604

Nikolaidis, N.[Nikos], Pantic, M.[Maja], Pitas, I.[Ioannis],
Anthropocentric Video Analysis: Tools and Applications,
JIVP(2008), No. 2008, pp. xx-yy.
DOI Link 0804
BibRef

Bilen, H.[Hakan], Hocaoglu, M.A.[Muhammet A.], Unel, M.[Mustafa], Sabanovic, A.[Asif],
Developing robust vision modules for microsystems applications,
MVA(23), No. 1, January 2012, pp. 25-42.
WWW Link. 1201
BibRef

Pulli, K.[Kari], Baksheev, A.[Anatoly], Kornyakov, K.[Kirill], Eruhimov, V.[Victor],
Real-Time Computer Vision with OpenCV,
CACM(55), No. 6, June 2012, pp. 61-69.
DOI Link 1205
Mobile computer-vision technology will soon become as ubiquitous as touch interfaces.
See also OpenCV. BibRef

Colbry, D., Dyer, F., Dworkin, I., Wang, Y.[Yang], Wang, L.F.[Li-Feng],
Speeding up scientific imaging workflows: Design of automated image annotation tool,
UCCV13 2013(13-18)
IEEE DOI 1307
cameras BibRef

Müller, M.[Matthias], Bernard, L.[Lars], Kadner, D.[Daniel],
Moving code: Sharing geoprocessing logic on the Web,
PandRS(83), No. 1, 2013, pp. 193-203.
Elsevier DOI 1308
Geoprocessing BibRef

Tashev, I.,
Kinect Development Kit: A Toolkit for Gesture- and Speech-Based Human-Machine Interaction,
SPMag(30), No. 5, 2013, pp. 129-131.
IEEE DOI 1309
Best of the Web. Cameras BibRef

Marburg, A., Hayes, M.P., Bainbridge-Smith, A.,
A machine vision extension to the Ruby programming language using OpenCV and FFI,
IVCNZ13(184-189)
IEEE DOI 1412
application program interfaces BibRef

Chmelar, P.[Petr], Pesek, M.[Martin], Volf, T.[Tomas], Zendulka, J.[Jaroslav], Froml, V.[Vojtech],
VTApi: An Efficient Framework for Computer Vision Data Management and Analytics,
ACIVS13(378-388).
Springer DOI 1311
BibRef

Krauß, T., d'Angelo, P., Schneider, M., Gstaiger, V.,
The Fully Automatic Optical Processing System CATENA at DLR,
Hannover13(177-183).
DOI Link 1308
System, CATENA. BibRef

Cho, P., Yee, M.,
Image search system,
AIPR12(1-7)
IEEE DOI 1307
computer vision visualize and explore image data. BibRef

Loesch, B., Christen, M., Nebiker, S.,
Openwebglobe: An Open Source SDK for Creating Large-Scale Virtual Globes on a WEBGL Basis,
ISPRS12(XXXIX-B4:195-200).
DOI Link 1209
BibRef

Dedeoglu, G.[Goksel], Kisacanin, B.[Branislav], Moore, D.[Darnell], Sharma, V.[Vinay], Miller, A.[Andrew],
An optimized vision library approach for embedded systems,
ECVW11(8-13).
IEEE DOI 1106
BibRef

Kornuta, T.[Tomasz],
Application of the FraDIA Vision Framework for Robotic Purposes,
ICCVG10(II: 65-72).
Springer DOI 1009
Another software development framework. BibRef

Kapec, P.[Peter],
Visual Programming Environment Based on Hypergraph Representations,
ICCVG10(II: 9-16).
Springer DOI 1009
BibRef

Giles, O., Chen, Z.[Zhe], Millane, R.,
An environment for vision science experiments,
IVCNZ09(108-112).
IEEE DOI 0911
BibRef

Taczak, T.M., Rundquist, M., Cahill, C.P.,
Model Analysis Geometry Imagery Correlation Tool Kit (MAGIC-TK) for Model Development and Image Analysis,
AIPR06(20-20).
IEEE DOI 0610
BibRef

Spetka, S., Ramseyer, G., Linderman, R.W.,
Fault tolerant integrated information management support for physically constrained iterative deconvolution,
AIPR08(1-5).
IEEE DOI 0810
BibRef

Spetka, S., Ramseyer, G., Linderman, R.W.,
Application Development Framework for the Rapid Integration of High Performance Image Processing Algorithms,
AIPR06(32-32).
IEEE DOI 0610
BibRef

Spetka, S., Tucker, S., Ramseyer, G., Linderman, R.W.,
Imagery Pattern Recognition and Pub/Sub Information Management,
AIPR07(37-41).
IEEE DOI 0710
BibRef

Zhou, J.[Juan], Jiang, D.F.[Deng-Feng], Liu, F.Y.[Fang-Yu],
Research and realization of automatic test system for ADC based on Matlab,
IASP09(141-145).
IEEE DOI 0904
BibRef

Wang, W.H.[Wei-Hong], Hu, X.D.[Xiao-Dong], Luo, J.C.[Jian-Cheng],
Study and implementation of sensor information computation environment,
IASP09(423-426).
IEEE DOI 0904
BibRef

da Silva, G.P.[Gleidson Pegoretti], Nakagawa, M.[Masaki],
A Visualization Tool to Improve the Performance of a Classifier Based on Hidden Markov Models,
ICDAR07(1083-1087).
IEEE DOI 0709
BibRef

Baudrier, E., Riffaud, A.,
A Method for Image Local-Difference Visualization,
ICDAR07(949-953).
IEEE DOI 0709
BibRef

Avidan, S.[Shai], Butman, M.[Moshe],
Blind Vision,
ECCV06(III: 1-13).
Springer DOI 0608
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