4.9.6 Optical Sensors for Machine Vision

Mertz, P., Gray, F.,
A Theory of Scanning and its Relation to the Characteristics of the Transmitted Signal in Telephotography and Television,
Bell System Tech.(13), 1934, pp. 464-514. BibRef 3400

Mertz, P.,
Television, the Scanning Process,
PIRE(29), No. 10, October 1941, pp. 529-537. BibRef 4110

Mertz, P., Fowler, A.D.,
Quality Rating of Television Images,
PIRE(38), No. 11, November 1950, pp. 1269-1283. BibRef 5011

Raisbeck, G., Goldhammer, J.,
Transmission of Photographic Data by Electrical Transmission,
IT(6), No. 4, September 1960, pp. 503-504. BibRef 6009

Carman, P.D., Charman, W.N.,
Detection, Recognition, and Resolution in Photographic Systems,
JOSA(54), September 1964, pp. 1121-1130. BibRef 6409

Goodman, J.W., Rhodes, W.T.,
An Optical System Designed for Image Processing,
PR(2), No. 2, May 1970, pp. 105-116.
Elsevier DOI 0309
Modify image system for corrections. BibRef

Shack, R.V.[Roland V.],
Image Processing by an Optical Analog Device,
PR(2), No. 2, May 1970, pp. 123-124.
Elsevier DOI BibRef 7005

Amelio, G., Tompsett, M., Smith, G.,
Experimental Verification of the Charge Coupled Device Concept,
Bell System Tech.(49), 1970, pp. 593-600. BibRef 7000

Boyle, W., Smith, G.,
Charge Coupled Semiconductor Devices,
Bell System Tech.(49), 1970, pp. 587-593. BibRef 7000

Lee, S.H.[Sing H.],
The synthesis of complex spatial filters for coherent optical data processing,
PR(5), No. 1, March 1973, pp. 21-22.
Elsevier DOI 0309
BibRef

Preston, Jr., K.,
Digital holographic logic,
PR(5), No. 1, March 1973, pp. 37-44.
Elsevier DOI 0309
Optical computing. BibRef

Strong, III, J.P.[James P.],
Binary image operations using non-coherent optical techniques,
PR(5), No. 1, March 1973, pp. 51-56.
Elsevier DOI 0309
BibRef

Stark, H., Barker, R.C., Garcia, E., Lee, D.,
Image processing by self-generated spatial and spectral masks,
PR(5), No. 1, March 1973, pp. 59-64.
Elsevier DOI 0309
BibRef

Wiersma, D.J., and Landgrebe, D.A.,
Analytical Design of Multispectral Sensors,
GeoRS(18), No. 2, 1980, pp. 180-189. BibRef 8000

Landgrebe, D.A.,
Land Observational Sensors in Perspective,
RSE(13), No. 5, October 1983, pp. 391-402. BibRef 8310

Kerekes, J.P.[John P.], and Landgrebe, D.A.[David A.],
Simulation of Optical Remote Sensing Systems,
GeoRS(27), No. 6, November 1989, pp. 762-771.
IEEE Top Reference. BibRef 8911

Kerekes, J.P.[John P.], and Landgrebe, D.A.[David A.],
Parameter Tradeoffs for Imaging Spectroscopy Systems,
GeoRS(29), No. 1, January 1991, pp. 57-65.
IEEE Top Reference. BibRef 9101

Kerekes, J.P.[John P.], and Landgrebe, D.A.[David A.],
An Analytical Model of Earth Observational Remote Sensing Systems,
SMC(21), No. 1, January 1991, pp. 125-133. BibRef 9101

Levialdi, S., Pirri, A., Franchina, V.,
An Image Acquisition Device for Minicomputers,
CGIP(8), 1978, pp. 113-120. BibRef 7800

Crossley, R.E., Gonzalez, R.C.,
A Real-Time Digitizer for Stereo Image Processing,
PR(14), No. 1-6, 1981, pp. 289-296.
Elsevier DOI BibRef 8100

Nagy, G.,
Optical Scanning Digitizers,
Computer(16), No. 5, May 1983, pp. 13-24. Survey, Scanning. Survey of different hardware and techniques. BibRef 8305

Flory, R.E.,
Image Acquisition Technology,
PIEEE(73), 1985, pp. 613-637. BibRef 8500

Janesick, J., Elliott, T., Collins, S., Blouke, M., Freeman, J.,
Scientific Charge-Coupled Devices,
OptEng(26), 1987, pp. 692-714. BibRef 8700

Horner, J.L., (Ed.)
Special Section on Optical Devices and Computing,
PIEEE(77), No. 10, October 1989, pp. 1511-1583. BibRef 8910

Flannery, D.L., Horner, J.L.,
Fourier Optical Signal Processors,
PIEEE(77), No. 10, October 1989, pp. 1511-1527. BibRef 8910

Cathey, W.T., Wagner, K., Miceli, W.J.,
Digital Computing with Optics,
PIEEE(77), No. 10, October 1989, pp. 1558-1572. BibRef 8910

Subbarao, M., Lu, M.C.,
Image-Sensing Model and Computer-Simulation for CCD Camera Systems,
MVA(7), No. 4, 1994, pp. 277-289. BibRef 9400

Wittenberg, T., Moser, R., Tigges, M., Eysholdt, U.,
Recording, Processing, and Analysis of Digital High-Speed Sequences in Glottography,
MVA(8), No. 6, 1995, pp. 399-404.
Springer DOI BibRef 9500

Kent, E.W., Shneier, M.O.,
Eyes for Automatons,
Spectrum(23), No. 3, 1986, pp. 37-45. BibRef 8600

Gosselin, C.M., StPierre, E., Gagne, M.,
On the Development of the Agile Eye,
RAMag(3), No. 4, December 1996, pp. 29-37. 9701

See also Agile Stereo Pair for active vision, The. BibRef

Du, F.L.[Feng-Lei], Brady, M.[Michael],
A Four-Degree-of-Freedom Robot Head for Active Vision,
PRAI(8), 1994, pp. 1439-1469. BibRef 9400
Earlier:
The Kinematics and Eye Movements for a Two-Eyed Robot Head,
BMVC91(xx-yy).
PDF File. 9109
BibRef

Du, F.L.[Feng-Lei], Brady, M.[Michael], Murray, D.W.[David W.],
Gaze Control for a Two-Eyed Robot Head,
BMVC91(xx-yy).
PDF File. 9109
BibRef

Appenzeller, T.[Tim], Norman, C.[Colin],
New Eyes on Hidden Worlds,
Science(276), No. 5321, 27 June 1997, pp. 1981-1995. Special report with articles on imaging atoms, IFSAR for monitoring eruptions, imaging circuits, cells, medical imaging, astronomy, etc. BibRef 9706

Boulianne, M., Nolette, C., Agnard, J.P., Brindamour, M.,
Hemispherical Photographs Used for Mapping Confined Spaces,
PhEngRS(63), No. 9, September 1997, pp. 1103-1109. 9709
BibRef

Gupta, R.[Rajiv], Hartley, R.I.[Richard I.],
Linear Pushbroom Cameras,
PAMI(19), No. 9, September 1997, pp. 963-975.
IEEE DOI 9710
BibRef
Earlier: ECCV94(A:555-566).
Springer DOI What they are, how the differ from frame cameras. Introduce a model for these sensors. BibRef

Hou, K.M., Belloum, A., Yao, E., Meribout, M., Trihandoyo, A., Li, K., Park, Y.H., Mayorquim, J.L.,
Perception Sensor for a Mobile Robot,
RealTimeImg(3), No. 5, October 1997, pp. 379-390. 9712
BibRef

Bruckstein, A.M.[Alfred M.], Holt, R.J.[Robert J.], Huang, T.S.[Thomas S.], Netravali, A.N.[Arun N.],
New Devices for 3D Pose Estimation: Mantis Eyes, Agam Paintings, Sundials, and Other Space Fiducials,
IJCV(39), No. 2, September 2000, pp. 131-139.
DOI Link 0008
BibRef
Earlier: ICPR98(Vol I: 305-309).
IEEE DOI 9808
BibRef

Andersen, H.J., Onyango, C.M., Marchant, J.A.,
Design and operation of an imaging sensor for detecting vegetation,
IJIST(11), No. 2, 2000, pp. 144-151. 0008

See also Physics-based colour image segmentation for scenes containing vegetation and soil. BibRef

Börner, A.[Anko], Wiest, L.[Lorenz], Keller, P.[Peter], Reulke, R.[Ralf], Richter, R.[Rolf], Schaepman, M.[Michael], Schläpfer, D.[Daniel],
SENSOR: A Tool for the Simulation of Hyperspectral Remote Sensing Systems,
PandRS(55), No. 5-6, March 2001, pp. 299-312.
HTML Version. 0105
BibRef

Pollard, S.[Stephen], Pilu, M.[Maurizio],
Building cameras for capturing documents,
IJDAR(7), No. 2-3, July 2005, pp. 123-137.
Springer DOI 0508
BibRef

Nayar, S.K.[Shree K.], Branzoi, V.[Vlad], Boult, T.E.[Terry E.],
Programmable Imaging: Towards a Flexible Camera,
IJCV(70), No. 1, October 2006, pp. 7-22.
Springer DOI 0606
BibRef
Earlier:
Programmable imaging using a digital micromirror array,
CVPR04(I: 436-443).
IEEE DOI Award, CVPR. 0408
BibRef

Daniilidis, K., Klette, R., (Eds.),
Imaging Beyond the Pinhole Camera,
Springer2006, ISBN 978-1-4020-4893-7.
WWW Link. And:
WWW Link. Proceedings for the 12th Theoretical Foundations of Computer Vision. Sensor Geometry. Motion. Mapping. Navigation. Sensors and Other Modalities. BibRef 0600

Lukac, R.[Rastislav],
Single-Sensor Imaging in Consumer Digital Cameras: A Survey of Recent Advances and Future Directions,
RealTimeIP(1), No. 1, October 2006, pp. 45-52.
Springer DOI 0001
Survey, Cameras. BibRef

Gomez, D.D.[David Delgado], Clemmensen, L.H.[Line Harder], Ersboll, B.K.[Bjarne K.], Carstensen, J.M.[Jens Michael],
Precise acquisition and unsupervised segmentation of multi-spectral images,
CVIU(106), No. 2-3, May-June 2007, pp. 183-193.
Elsevier DOI 0705
Image acquisition, Multi-spectral image analysis, Illumination, Exploratory data analysis, Image segmentation, Pattern recognition 20 different spectral bands within a range that vary from 395 nm to 970 nm BibRef

Boissenin, M., Wedekind, J., Selvan, A.N., Amavasai, B.P., Caparrelli, F., Travis, J.R.,
Computer vision methods for optical microscopes,
IVC(25), No. 7, 1 July 2007, pp. 1107-1116.
Elsevier DOI 0705
Microscope imaging, Micro-robotics, Tracking, Depth estimation BibRef

Hu, B., Zhang, K.F., Gray, L., Miller, J.R., Zwick, H.,
The Frequent Image Frames Enhanced Digital Orthorectified Mapping (FIFEDOM) Camera for Acquiring Multiangular Reflectance From the Land Surface,
GeoRS(45), No. 10, October 2007, pp. 3110-3118.
IEEE DOI 0711
BibRef

Shaevitz, J.W.[Joshua W.], Fletcher, D.A.[Daniel A.],
Enhanced three-dimensional deconvolution microscopy using a measured depth-varying point-spread function,
JOSA-A(24), No. 9, September 2007, pp. 2622-2627.
WWW Link. 0801
BibRef

Keren, S., Gheysens, O., Levin, C.S., Gambhir, S.S.,
A Comparison Between a Time Domain and Continuous Wave Small Animal Optical Imaging System,
MedImg(27), No. 1, January 2008, pp. 58-63.
IEEE DOI 0712
BibRef

Marengo, E.A.[Edwin A.], Hernandez, R.D.[Ronald D.], Lev-Ari, H.[Hanoch],
Intensity-only signal-subspace-based imaging,
JOSA-A(24), No. 11, November 2007, pp. 3619-3635.
WWW Link. 0801
imaging of scatters using only intensity - no phase. BibRef

Aprile, W.A.[Walter A.], Ruffaldi, E.[Emanuele], Sotgiu, E.[Edoardo], Frisoli, A.[Antonio], Bergamasco, M.[Massimo],
A dynamically reconfigurable stereoscopic/panoramic vision mobile robot head controlled from a virtual environment,
VC(24), No. 11, November 2008, pp. xx-yy.
Springer DOI 0810
BibRef

Bugarin, E.[Eusebio], Kelly, R.[Rafael],
RTSVC: Real-time system for visual control of robots,
IJIST(18), No. 4, 2008, pp. 251-256.
DOI Link 0810
BibRef

Marshall, R., Newsome, R., Inan, U.,
Fast Photometric Imaging Using Orthogonal Linear Arrays,
GeoRS(46), No. 11, November 2008, pp. 3885-3893.
IEEE DOI 0812
high speed capture using sensitive 1-D arrays. BibRef

Peng, B., Jin, C., Wang, Q., Zhu, L., Zhu, W., Zhang, H., Nan, R.,
Preparatory Study for Constructing FAST, the World's Largest Single Dish,
PIEEE(97), No. 8, August 2009, pp. 1391-1402.
IEEE DOI 0907
Telescope. BibRef

de Vos, M., Gunst, A.W., Nijboer, R.,
The LOFAR Telescope: System Architecture and Signal Processing,
PIEEE(97), No. 8, August 2009, pp. 1431-1437.
IEEE DOI 0907
BibRef

Jacobsen, K.[Karsten],
Geometric Property of Large Format Digital Camera DMC II 140,
PFG(2011), No. 2, 2011, pp. 71-79.
WWW Link. 1211
BibRef

Jacobsen, K., Neumann, K.,
Property of the Large Format Digital Aerial Camera Dmc II,
ISPRS12(XXXIX-B1:21-25).
DOI Link 1209
BibRef

Content, R., Blake, S., Dunlop, C., Nandi, D., Sharples, R., Talbot, G., Shanks, T., Donoghue, D., Galiatsatos, N., Luke, P.,
New Microslice Technology for Hyperspectral Imaging,
RS(5), No. 3, March 2013, pp. 1204-1219.
DOI Link 1304
BibRef

Kim, J.[Jinsoo], Lee, S.[Seongkyu], Ahn, H.[Hoyong], Seo, D.[Dongju], Park, S.[Soyoung], Choi, C.[Chuluong],
Feasibility of employing a smartphone as the payload in a photogrammetric UAV system,
PandRS(79), No. 1, May 2013, pp. 1-18.
Elsevier DOI 1305
Smartphone, Photogrammetric UAV system, Accuracy, Camera calibration; Ortho-images BibRef

Ma, C.G.[Chen-Guang], Cao, X.[Xun], Tong, X.[Xin], Dai, Q.H.[Qiong-Hai], Lin, S.[Stephen],
Acquisition of High Spatial and Spectral Resolution Video with a Hybrid Camera System,
IJCV(110), No. 1, November 2014, pp. 141-155.
Springer DOI 1411
BibRef

Cao, X.[Xun], Tong, X.[Xin], Dai, Q.H.[Qiong-Hai], Lin, S.[Stephen],
High resolution multispectral video capture with a hybrid camera system,
CVPR11(297-304).
IEEE DOI 1106
BibRef

Torralba, A.B.[Antonio B.], Freeman, W.T.[William T.],
Accidental Pinhole and Pinspeck Cameras,
IJCV(110), No. 1, November 2014, pp. 92-112.
WWW Link. 1411
BibRef
Earlier:
Accidental pinhole and pinspeck cameras: Revealing the scene outside the picture,
CVPR12(374-381).
IEEE DOI 1208
Analysis based on pinhole model. BibRef

Carles, G.[Guillem], Muyo, G.[Gonzalo], Bustin, N.[Nicholas], Wood, A.[Andrew], Harvey, A.R.[Andrew R.],
Compact multi-aperture imaging with high angular resolution,
JOSA-A(32), No. 3, March 2015, pp. 411-419.
DOI Link 1503
Image reconstruction-restoration. Simulate single lens with multiple lenslets. BibRef

Monno, Y., Kikuchi, S., Tanaka, M., Okutomi, M.,
A Practical One-Shot Multispectral Imaging System Using a Single Image Sensor,
IP(24), No. 10, October 2015, pp. 3048-3059.
IEEE DOI 1507
Algorithm design and analysis BibRef

Monno, Y., Tanaka, M., Okutomi, M.,
N-to-SRGB Mapping for Single-Sensor Multispectral Imaging,
CVPV15(66-73)
IEEE DOI 1602
Image color analysis BibRef

Gao, L.[Liang], Liang, J.Y.[Jin-Yang], Wang, L.H.[Li-Hong],
Watching photons on the fly,
SPIE(Newsroom), April 21, 2015.
DOI Link 1507
Combining a new computational optical imaging method with a streak camera enables 2D ultrafast photography of nonrepetitive events at 100 billion frames per second. BibRef

Lu, C.[Cewu], Tsougenis, E.[Efstratios], Tang, C.K.[Chi-Keung],
Improving object recognition with the l-channel,
PR(49), No. 1, 2016, pp. 187-197.
Elsevier DOI 1511
Image format. Color plus frosted glass image BibRef

Jia, J., Barnard, K.J., Hirakawa, K.,
Fourier Spectral Filter Array for Optimal Multispectral Imaging,
IP(25), No. 4, April 2016, pp. 1530-1543.
IEEE DOI 1604
Fourier transform spectroscopy BibRef

Gutiérrez, C.E.[Cristian E.], Sabra, A.[Ahmad],
Aspherical Lens Design and Imaging,
SIIMS(9), No. 1, 2016, pp. 386-411.
DOI Link 1604
BibRef

Wang, P.[Peng], Menon, R.[Rajesh],
Computational multispectral video imaging,
JOSA-A(35), No. 1, January 2018, pp. 189-199.
DOI Link 1801
(Invited Contribution) Diffractive optics, Inverse problems, Micro-optics, Computational imaging, Multispectral and hyperspectral imaging BibRef

Wang, L.Z.[Li-Zhi], Xiong, Z.W.[Zhi-Wei], Huang, H., Shi, G.M.[Guang-Ming], Wu, F.[Feng], Zeng, W.J.[Wen-Jun],
High-Speed Hyperspectral Video Acquisition By Combining Nyquist and Compressive Sampling,
PAMI(41), No. 4, April 2019, pp. 857-870.
IEEE DOI 1903
Hyperspectral imaging, Imaging, Spatial resolution, Image reconstruction, Apertures, Compressive sampling, simultaneous sparsity BibRef

Wang, L.Z.[Li-Zhi], Xiong, Z.W.[Zhi-Wei], Gao, D.[Dahua], Shi, G.M.[Guang-Ming], Zeng, W.J.[Wen-Jun], Wu, F.[Feng],
High-speed hyperspectral video acquisition with a dual-camera architecture,
CVPR15(4942-4950)
IEEE DOI 1510
BibRef

Salazar, S.E.[Sean E.], Coffman, R.A.[Richard A.],
Multi-Channel Optical Receiver for Ground-Based Topographic Hyperspectral Remote Sensing,
RS(11), No. 5, 2019, pp. xx-yy.
DOI Link 1903
BibRef

Ulrich, M.[Markus], Steger, C.[Carsten],
A camera model for cameras with hypercentric lenses and some example applications,
MVA(30), No. 6, September 2019, pp. 1013-1028.
Springer DOI 1909
Image top and side. BibRef

Steger, C.[Carsten], Ulrich, M.[Markus],
A Camera Model for Line-Scan Cameras with Telecentric Lenses,
IJCV(129), No. 1, January 2021, pp. 80-99.
Springer DOI 2101
BibRef

Roberts, A.[Ann], Gomez, D.E.[Daniel E.], Davis, T.J.[Timothy J.],
Optical image processing with metasurface dark modes,
JOSA-A(35), No. 9, September 2018, pp. 1575-1584.
DOI Link 1912
Spatial filtering, Image processing, Optical transfer functions, Metamaterials, Spatial frequency BibRef

Bachmann, M.[Martin], Alonso, K.[Kevin], Carmona, E.[Emiliano], Gerasch, B.[Birgit], Habermeyer, M.[Martin], Holzwarth, S.[Stefanie], Krawczyk, H.[Harald], Langheinrich, M.[Maximilian], Marshall, D.[David], Pato, M.[Miguel], Pinnel, N.[Nicole], de los Reyes, R.[Raquel], Schneider, M.[Mathias], Schwind, P.[Peter], Storch, T.[Tobias],
Analysis-Ready Data from Hyperspectral Sensors: The Design of the EnMAP CARD4L-SR Data Product,
RS(13), No. 22, 2021, pp. xx-yy.
DOI Link 2112
BibRef

Peng, J.Y.[Jia-Yong], Xiong, Z.W.[Zhi-Wei], Tan, H.[Hao], Huang, X.[Xin], Li, Z.P.[Zheng-Ping], Xu, F.H.[Fei-Hu],
Boosting Photon-Efficient Image Reconstruction With A Unified Deep Neural Network,
PAMI(45), No. 4, April 2023, pp. 4180-4197.
IEEE DOI 2303
Photonics, Imaging, Image reconstruction, Single-photon avalanche diodes, Correlation, Detectors, deep learning BibRef

Peng, J.Y.[Jia-Yong], Xiong, Z.W.[Zhi-Wei], Huang, X.[Xin], Li, Z.P.[Zheng-Ping], Liu, D.[Dong], Xu, F.H.[Fei-Hu],
Photon-efficient 3d Imaging with A Non-local Neural Network,
ECCV20(VI:225-241).
Springer DOI 2011
BibRef

Grau Chopite, J.[Javier], Hullin, M.B.[Matthias B.], Wand, M.[Michael], Iseringhausen, J.[Julian],
Deep Non-Line-of-Sight Reconstruction,
CVPR20(957-966)
IEEE DOI 2008
Based on reflected light and multiple bounces. Image reconstruction, Transient analysis, Nonlinear optics, Machine learning BibRef

Zhao, Y.Y.[Yuan-Yuan], Guo, H.[Hui], Ma, Z.[Zhan], Cao, X.[Xun], Yue, T.[Tao], Hu, X.M.[Xue-Mei],
Hyperspectral Imaging With Random Printed Mask,
CVPR19(10141-10149).
IEEE DOI 2002
BibRef

Bardow, P.[Patrick], Davison, A.J.[Andrew J.], Leutenegger, S.[Stefan],
Simultaneous Optical Flow and Intensity Estimation from an Event Camera,
CVPR16(884-892)
IEEE DOI 1612
measure intensity changes. BibRef

Neumann, K.[Klaus], Welzenbach, M.[Martin], Timm, M.[Martin],
CMOS Imaging Sensor Technology For Aerial Mapping Cameras,
ISPRS16(B1: 69-72).
DOI Link 1610
BibRef

McGregor, S., Lacroix, S., Monmayrant, A.,
An Adaptive Programmable Hyperspectral Imager,
GeoHyper15(419-425).
DOI Link 1602
BibRef

Berra, E., Gibson-Poole, S., MacArthur, A., Gaulton, R., Hamilton, A.,
Estimation of the Spectral Sensitivity Functions of Un-Modified and Modified Commercial Off-the-Shelf Digital Cameras to Enable Their Use as a Multispectral Imaging System for UAVS,
UAV-g15(207-214).
DOI Link 1512
BibRef

Wang, L.Z.[Li-Zhi], Xiong, Z.W.[Zhi-Wei], Shi, G.M.[Guang-Ming], Zeng, W.J.[Wen-Jun], Wu, F.[Feng],
Compressive hyperspectral imaging with complementary RGB measurements,
VCIP16(1-4)
IEEE DOI 1701
Apertures BibRef

Lee, H.[Haebom], Kim, M.H.[Min H.],
Building a Two-Way Hyperspectral Imaging System with Liquid Crystal Tunable Filters,
ICISP14(26-34).
Springer DOI 1406
BibRef

Hakala, T., Honkavaara, E., Saari, H., Mäkynen, J., Kaivosoja, J., Pesonen, L., Pölönen, I.,
Spectral Imaging from UAVS Under Varying Illumination Conditions,
UAV-g13(189-194).
HTML Version. 1311
BibRef

Haubeck, K., Prinz, T.,
A UAV-Based Low-Cost Stereo Camera System for Archaeological Surveys: Experiences from Doliche (Turkey),
UAV-g13(195-200).
HTML Version. 1311
BibRef

Espino, J.G.R.[José Guadalupe Rico], Gonzalez-Barbosa, J.J.[José-Joel], Loenzo, R.A.G.[Roberto Augusto Gómez], Esparza, D.M.C.[Diana Margarita Córdova], Gonzalez-Barbosa, R.[Ricardo],
Vision System for 3D Reconstruction with Telecentric Lens,
MCPR12(127-136).
Springer DOI 1208
BibRef

Bodenstorfer, E.[Ernst], Hasani, Y.[Ylber], Furtler, J.[Johannes], Brodersen, J.[Jorg], Mayer, K.J.[Konrad J.],
High-speed line-scan camera with multi-line CMOS color sensor,
ECVW12(9-14).
IEEE DOI 1207
BibRef

Zhou, B.B.[Bei-Bei], Chen, Q.[Qian], He, W.J.[Wei-Ji], Zhang, W.W.[Wen-Wen],
A dual-threshold method for photon counting imaging with the EMCCD,
ICIP10(3333-3336).
IEEE DOI 1009
BibRef

Nagahara, H.[Hajime], Zhou, C.Y.[Chang-Yin], Watanabe, T.[Takuya], Ishiguro, H.[Hiroshi], Nayar, S.K.[Shree K.],
Programmable Aperture Camera Using LCoS,
ECCV10(VI: 337-350).
Springer DOI 1009
LCoS: Liquid Crystal on Silicon BibRef

Carr, P.[Peter], Hartley, R.I.[Richard I.],
Portable Multi-megapixel Camera with Real-Time Recording and Playback,
DICTA09(74-80).
IEEE DOI 0912
BibRef

Li, B.[Bo], Cheng, P.G.[Ping-Guang],
Frame Design and Algorithm Research on A New Image Acquisition System,
ICMV09(251-254).
IEEE DOI 0912
hardware details of acquisition system. Sampling. BibRef

Liu, J.[Jia], Chou, W.S.[Wu-Sheng],
Design and Implementation of an Embedded Image Capture Device for Mobile Robots,
CISP09(1-5).
IEEE DOI 0910
BibRef

Xu, M.H.[Mei-Hua], Fan, Y.L.[Yu-Le],
High Performance Analog to Digital Converter in CCD Image Processor,
CISP09(1-4).
IEEE DOI 0910
BibRef

Cai, J.[Jun], Ran, F.[Feng], Yang, H.[Hui], Xu, M.H.[Mei-Hua],
A CMOS Image Sensor with Self-Reset Circuit in Active Pixel,
CISP09(1-4).
IEEE DOI 0910
BibRef

Batog, G.[Guillaume], Goaoc, X.[Xavier], Ponce, J.[Jean],
Admissible linear map models of linear cameras,
CVPR10(1578-1585).
IEEE DOI 1006

See also Stereo with Oblique Cameras. BibRef

Ponce, J.[Jean],
What is a camera?,
CVPR09(1526-1533).
IEEE DOI 0906
Description that includes general linear cameras of Yu and McMillan (
See also General Linear Cameras. ) and the linear oblique camera (
See also Stereo with Oblique Cameras. ) BibRef

Börner, A.[Anko], Hirschmüller, H.[Heiko], Scheibe, K.[Karsten], Suppa, M.[Michael], Wohlfeil, J.[Jürgen],
MFC: A Modular Line Camera for 3D World Modelling,
RobVis08(319-326).
Springer DOI 0802
BibRef

Rieke-Zapp, D.H., Peipe, J.,
Performance evaluation of a 33 megapixel alpa 12 medium format camera for digital close range photogrammetry,
IEVM06(xx-yy).
PDF File. 0609
BibRef

Kanbara, M.[Masayuki], Ukita, N.[Norimichi], Kidode, M.[Masatsugu], Yokoya, N.[Naokazu],
3D Scene Reconstruction from Reflection Images in a Spherical Mirror,
ICPR06(IV: 874-879).
IEEE DOI 0609
BibRef

Ono, S.[Shintaro], Mikami, T.[Takeshi], Kawasaki, H.[Hiroshi], Ikeuchi, K.[Katsushi],
Space-time Analysis of Spherical Projection Image,
ICPR06(I: 975-979).
IEEE DOI 0609
BibRef

Nagahara, H., Hoshikawa, A., Shigemoto, T., Iwai, Y., Yachida, M., Tanaka, H.,
Dual-sensor camera for acquiring image sequences with different spatio-temporal resolution,
AVSBS05(450-455).
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Chapter on Computational Vision, Regularization, Connectionist, Morphology, Scale-Space, Perceptual Grouping, Wavelets, Color, Sensors, Optical, Laser, Radar continues in
Omnidirectional and Panoramic Sensors .