Mersive,
2004.
WWW Link.
Vendor, Projection. Immersive systems for projection on arbitrary shaped surfaces.
From the Kentucky visualization group.
See also University of Kentucky.
Takahashi, Y.,
Nomura, T.,
Sakai, S.,
Optical system and characteristics of an LCD projector with interleaved
pixels using four LCD projectors,
CirSysVideo(5), No. 1, February 1995, pp. 41-47.
IEEE Top Reference.
0206
BibRef
Bimber, O.,
Emmerling, A.,
Klemmer, T.,
Embedded entertainment with smart projectors,
Computer(38), No. 1, January 2005, pp. 48-55.
IEEE DOI
0501
Project on arbitrary surfaces.
BibRef
Jaynes, C.O.[Christopher O.],
Ramakrishnan, D.T.[Divya T.],
Super-resolution overlay in multi-projector displays,
US_Patent7,097,311, August 29, 2006
WWW Link.
BibRef
0608
Gupta, S.,
Jaynes, C.O.,
Active Pursuit Tracking in a Projector-Camera System with Application
to Augmented Reality,
ProjCam05(III: 111-111).
IEEE DOI
0507
BibRef
Okatani, T.[Takayuki],
Deguchi, K.[Koichiro],
Autocalibration of a Projector-Camera System,
PAMI(27), No. 12, December 2005, pp. 1845-1855.
IEEE DOI
0512
BibRef
And:
Autocalibration of an Ad Hoc Construction of Multi-Projector Displays,
PROCAMS06(4).
IEEE DOI
0609
BibRef
Earlier:
Autocalibration of a projector-screen-camera system: theory and
algorithm for screen-to-camera homography estimation,
ICCV03(774-781).
IEEE DOI
0311
Initial pose of projector is unknown, though geometry is known.
Projecton on planar screen.
BibRef
Okatani, T.[Takayuki],
Deguchi, K.[Koichiro],
Easy Calibration of a Multi-projector Display System,
IJCV(85), No. 1, October 2009, pp. xx-yy.
Springer DOI
0907
BibRef
Okatani, T.[Takayuki],
Wada, M.,
Deguchi, K.[Koichiro],
Study of Image Quality of Superimposed Projection Using Multiple
Projectors,
IP(18), No. 2, February 2009, pp. 424-429.
IEEE DOI
0901
BibRef
Son, J.Y.[Jung-Young],
Gruts, Y.N.[Yuri N.],
Kwack, K.D.[Kae-Dal],
Cha, K.H.[Kyung-Hun],
Kim, S.K.[Sung-Kyu],
Stereoscopic image distortion in radial camera and projector
configurations,
JOSA-A(24), No. 3, March 2007, pp. 643-650.
WWW Link.
0801
BibRef
Park, H.,
Lee, M.H.,
Seo, B.K.,
Park, J.I.,
Jeong, M.S.,
Park, T.S.,
Lee, Y.,
Kim, S.R.,
Simultaneous Geometric and Radiometric Adaptation to Dynamic Surfaces
With a Mobile Projector-Camera System,
CirSysVideo(18), No. 1, January 2008, pp. 110-115.
IEEE DOI
0802
BibRef
Fiala, M.[Mark],
Shu, C.[Chang],
Self-identifying patterns for plane-based camera calibration,
MVA(19), No. 4, July 2008, pp. xx-yy.
Springer DOI
0711
BibRef
Fiala, M.,
Automatic Projector Calibration Using Self-Identifying Patterns,
ProjCam05(III: 113-113).
IEEE DOI
0507
See also Background Subtraction using Self-Identifying Patterns.
BibRef
Liao, M.[Miao],
Yang, R.G.[Rui-Gang],
Zhang, Z.Y.[Zheng-You],
Robust and Accurate Visual Echo Cancelation in a Full-duplex
Projector-Camera System,
PAMI(30), No. 10, October 2008, pp. 1831-1840.
IEEE DOI
0810
BibRef
Earlier:
Add A2:
Sun, M.X.[Ming-Xuan],
PROCAMS06(10).
IEEE DOI
0609
A system where multiple users (at different sites) interact in the same
whiteboard system and all interactions are shown on all sites.
Eliminate ghosting and echos by separating the foreground from the more
constant background and only transmit the foreground for display.
BibRef
Zhou, H.N.[Han-Ning],
Zhang, Z.Y.[Zheng-You],
Huang, T.S.[Thomas S.],
Visual echo cancellation in a projector-camera-whiteboard system,
ICIP04(V: 2885-2888).
IEEE DOI
0505
BibRef
He, L.W.,
Zhang, Z.,
Real-Time Whiteboard Capture and Processing Using a Video Camera for
Remote Collaboration,
MultMed(9), No. 1, January 2007, pp. 198-206.
IEEE DOI
0905
BibRef
Li, Z.R.[Zhao-Rong],
Wong, K.H.[Kin-Hong],
Gong, Y.[Yibo],
Chang, M.M.Y.[Michael Ming-Yuen],
An Effective Method for Movable Projector Keystone Correction,
MultMed(13), No. 1, 2011, pp. 155-160.
IEEE DOI
1102
BibRef
Li, Z.R.[Zhao-Rong],
Wong, K.H.[Kin-Hong],
Gong, Y.[Yibo],
Lee, K.K.[Kai-Ki],
Chang, M.M.Y.[Michael Ming-Yuen],
A keystone-free hand-held mobile projection system,
ICIP10(553-556).
IEEE DOI
1009
BibRef
Drouin, M.A.[Marc-Antoine],
Jodoin, P.M.[Pierre-Marc],
Prémont, J.[Julien],
Camera-projector matching using unstructured video,
MVA(23), No. 5, September 2012, pp. 887-902.
WWW Link.
1208
BibRef
Earlier:
Camera-projector matching using an unstructured video stream,
PROCAMS10(33-40).
IEEE DOI
1006
BibRef
Ben-Hamadou, A.[Achraf],
Soussen, C.[Charles],
Daul, C.[Christian],
Blondel, W.[Walter],
Wolf, D.[Didier],
Flexible calibration of structured-light systems projecting point
patterns,
CVIU(117), No. 10, 2013, pp. 1468-1481.
Elsevier DOI
1309
BibRef
Earlier:
Flexible projector calibration for active stereoscopic systems,
ICIP10(4241-4244).
IEEE DOI
1009
Structured-light systems
BibRef
Jang, J.S.[Jae Seok],
Jung, G.S.[Gi Sook],
Lee, T.H.[Tae Hwan],
Jung, S.K.[Soon Ki],
Two-Phase Calibration for a Mirror Metaphor Augmented Reality System,
PIEEE(102), No. 2, February 2014, pp. 196-203.
IEEE DOI
1403
augmented reality
BibRef
Miyagawa, I.,
Sugaya, Y.,
Arai, H.,
Morimoto, M.,
An Iterative Compensation Approach Without Linearization of Projector
Responses for Multiple-Projector System,
IP(23), No. 6, June 2014, pp. 2676-2687.
IEEE DOI
1406
Brightness
BibRef
Sugaya, Y.[Yoshiko],
Miyagawa, I.[Isao],
Koike, H.[Hideki],
Contrasting shadow for occluder light suppression from one-shot image,
PROCAMS10(96-103).
IEEE DOI
1006
User between projector and screen.
Supress the "offending" projector when needed.
BibRef
Mihara, S.,
Iwai, D.,
Sato, K.,
Artifact Reduction in Radiometric Compensation of Projector-Camera
Systems for Steep Reflectance Variations,
CirSysVideo(24), No. 9, September 2014, pp. 1631-1638.
IEEE DOI
1410
compensation
BibRef
Grundhofer, A.,
Iwai, D.,
Robust, Error-Tolerant Photometric Projector Compensation,
IP(24), No. 12, December 2015, pp. 5086-5099.
IEEE DOI
1512
Calibration
BibRef
Boisvert, J.[Jonathan],
Drouin, M.A.[Marc-Antoine],
Jodoin, P.M.[Pierre-Marc],
High-speed transition patterns for video projection, 3D
reconstruction, and copyright protection,
PR(48), No. 3, 2015, pp. 720-731.
Elsevier DOI
1412
Change detection
BibRef
Chen, C.,
Huang, W.,
Zhang, L.,
Mow, W.H.,
Robust and Unobtrusive Display-to-Camera Communications via Blue
Channel Embedding,
IP(28), No. 1, January 2019, pp. 156-169.
IEEE DOI
1810
Robustness, Decoding, Demodulation,
Cameras, Channel coding, Display-to-camera communication,
chromatic channel
BibRef
Feng, Z.X.[Ze-Xi],
Cheng, Z.Q.[Zhi-Quan],
Song, Z.[Zhan],
A closed-form single-pose calibration method for the camera-projector
system,
MVA(30), No. 3, April 2019, pp. 461-472.
WWW Link.
1906
BibRef
Wang, X.H.[Xiu-Hui],
Yan, K.[Ke],
Liu, Y.Q.[Yan-Qiu],
Automatic geometry calibration for multi-projector display systems with
arbitrary continuous curved surfaces,
IET-IPR(13), No. 7, 30 May 2019, pp. 1050-1055.
DOI Link
1906
BibRef
Bajestani, S.A.[Shahaboddin Askarian],
Pourreza, H.[Hamidreza],
Nalbandian, S.[Shayan],
Scalable and view-independent calibration of multi-projector display
for arbitrary uneven surfaces,
MVA(30), No. 7-8, October 2019, pp. 1191-1207.
Springer DOI
1911
BibRef
Shih, K.T.,
Liu, J.S.,
Shyu, F.,
Chen, H.H.,
Enhancement and Speedup of Photometric Compensation for Projectors by
Reducing Inter-Pixel Coupling and Calibration Patterns,
IP(30), 2021, pp. 418-430.
IEEE DOI
2012
Image color analysis, Calibration, Cameras, Couplings,
Multimedia systems, Estimation, Surface waves, Procam,
multimedia presentation
BibRef
Yu, J.,
Da, F.,
Li, W.,
Calibration for Camera-Projector Pairs Using Spheres,
IP(30), 2021, pp. 783-793.
IEEE DOI
2012
Cameras, Calibration, Distortion,
Shape measurement, Geometry, Pins, Calibration,
epipolar geometry
BibRef
Huang, B.Y.[Bing-Yao],
Sun, T.[Tao],
Ling, H.B.[Hai-Bin],
End-to-End Full Projector Compensation,
PAMI(44), No. 6, June 2022, pp. 2953-2967.
IEEE DOI
2205
BibRef
Earlier: A1, A3, Only:
CompenNet++: End-to-End Full Projector Compensation,
ICCV19(7164-7173)
IEEE DOI
2004
Surface texture, Cameras, Training, Benchmark testing, Geometry,
Task analysis, Pipelines, Projector compensation,
image enhancement.
compensation, feature extraction, image sampling,
learning (artificial intelligence), optical projectors
BibRef
Liu, K.[Kai],
Ying, S.[Songlin],
Lau, D.L.[Daniel L.],
Zhu, C.[Ce],
Xu, B.[Bin],
Symmetrical Epipolar Features Over Normalized Camera/Projector
Calibration Matrices for Real-Time Structured Light Illumination,
SPLetters(29), 2022, pp. 2268-2272.
IEEE DOI
2212
Cameras, Point cloud compression, Real-time systems, Geometry,
Calibration, Symmetric matrices, 3D reconstruction,
structured light illumination
BibRef
Qi, Z.S.[Zhao-Shuai],
Pang, J.Q.[Jing-Qi],
Hao, Y.F.[Yi-Feng],
Hu, R.[Rui],
Zhang, Y.N.[Yan-Ning],
A Minimal Solution for Sphere-Based Camera-Projector Pair Calibration,
CirSysVideo(34), No. 4, April 2024, pp. 2498-2511.
IEEE DOI
2404
Cameras, Calibration, Geometry, Transmission line matrix methods,
Optical distortion, Lenses, structured light
BibRef
Qiu, Y.[Yubo],
Malcolm, J.[Jonathon],
Vatoo, A.[Abhay],
Ziauddin, S.[Sheikh],
Greenspan, M.[Michael],
Inverse Rectification for Efficient Procam Pattern Correspondence,
WACV20(699-707)
IEEE DOI
2006
Cameras, Robot sensing systems,
Image color analysis, Bandwidth, Image coding
BibRef
Li, C.,
Monno, Y.,
Hidaka, H.,
Okutomi, M.,
Pro-Cam SSfM: Projector-Camera System for Structure and Spectral
Reflectance From Motion,
ICCV19(2414-2423)
IEEE DOI
2004
cameras, estimation theory, image colour analysis,
image motion analysis, image reconstruction, light reflection,
Data acquisition
BibRef
Torii, M.[Moriaki],
Okabe, T.[Takahiro],
Amano, T.[Toshiyuki],
Multispectral Direct-Global Separation of Dynamic Scenes,
WACV19(1923-1931)
IEEE DOI
1904
Projector-camera system.
calibration, cameras, image colour analysis, image reconstruction,
optical projectors, dynamic scene, direct components,
Wheels
BibRef
Gard, N.,
Eisert, P.,
Markerless Closed-Loop Projection Plane Tracking for Mobile
Projector-Camera Systems,
ICIP18(3363-3367)
IEEE DOI
1809
Cameras, Mathematical model, Optical imaging, Optical distortion,
Distortion, Lighting, Geometry, Augmented reality, Optical flow,
Closed-loop registration
BibRef
Tehrani, M.A.,
Beeler, T.,
Grundhöfer, A.,
A Practical Method for Fully Automatic Intrinsic Camera Calibration
Using Directionally Encoded Light,
CVPR17(125-133)
IEEE DOI
1711
Apertures, Calibration, Cameras, Lenses, Optical distortion, Reliability
BibRef
Fleischmann, O.,
Koch, R.,
Fast projector-camera calibration for interactive projection mapping,
ICPR16(3798-3803)
IEEE DOI
1705
Calibration, Cameras, Geometry, Image edge detection, Standards,
Two, dimensional, displays
BibRef
Boroomand, A.,
Sekkati, H.,
Lamm, M.,
Clausi, D.A.,
Wong, A.,
Saliency-guided projection geometric correction using a
projector-camera system,
ICIP16(2951-2955)
IEEE DOI
1610
Calibration
BibRef
Sajadi, B.,
Tehrani, M.A.,
Rahimzadeh, M.,
Majumder, A.,
High-resolution lighting of 3D reliefs using a network of projectors
and cameras,
3DTV-CON15(1-4)
IEEE DOI
1508
Calibration
BibRef
Bokaris, P.A.[Panagiotis-Alexandros],
Gouiffès, M.[Michèle],
Jacquemin, C.[Christian],
Chomaz, J.M.[Jean-Marc],
Tremeau, A.[Alain],
One-frame delay for dynamic photometric compensation in a
projector-camera system,
ICIP15(2675-2679)
IEEE DOI
1512
BibRef
Earlier: A1, A2, A3, A4, Only:
Photometric Compensation to Dynamic Surfaces in a Projector-Camera
System,
CVPV14(283-296).
Springer DOI
1504
DLP model.
BibRef
Li, S.N.[Song-Nan],
Ngan, K.N.[King Ngi],
Sheng, L.[Lu],
Screen-camera calibration using a thread,
ICIP14(3435-3439)
IEEE DOI
1502
Calibration
BibRef
Zhao, P.[Ping],
Pedersen, M.[Marius],
Hardeberg, J.Y.[Jon Yngve],
Thomas, J.B.[Jean-Baptiste],
Image registration for quality assessment of projection displays,
ICIP14(3488-3492)
IEEE DOI
1502
Cameras
BibRef
Amano, T.[Toshiyuki],
Projection Center Calibration for a Co-located Projector Camera
System,
CCD14(449-454)
IEEE DOI
1409
Calibration; Centers of Projection; Projector Camera Systems
BibRef
Xu, W.P.[Wei-Peng],
Wang, Y.T.[Yong-Tian],
Liu, Y.[Yue],
Weng, D.D.[Dong-Dong],
Tan, M.W.[Meng-Wen],
Salzmann, M.[Mathieu],
Real-time keystone correction for hand-held projectors with an RGBD
camera,
ICIP13(3142-3146)
IEEE DOI
1402
RGBD camera;hand-held projector;keystone correction
BibRef
Mussadiq, S.[Shafaq],
Hafiz, R.[Rehan],
Projection on Suitable Sub-surface Selected in Indoor Environment,
ISVC13(II:339-348).
Springer DOI
1311
BibRef
Nakamura, T.[Takayuki],
de Sorbier, F.[Francois],
Martedi, S.[Sandy],
Saito, H.[Hideo],
Calibration-free projector-camera system for spatial augmented reality
on planar surfaces,
ICPR12(85-88).
WWW Link.
1302
BibRef
Hong, W.[Wei],
Gelb, D.[Dan],
Trott, M.[Mitchell],
Automatic calibration of a projector-camera system with a see-through
screen,
ICIP12(337-340).
IEEE DOI
1302
BibRef
Moreno, D.[Daniel],
Taubin, G.[Gabriel],
Simple, Accurate, and Robust Projector-Camera Calibration,
3DIMPVT12(464-471).
IEEE DOI
1212
BibRef
Dai, J.W.[Jing-Wen],
Chung, R.[Ronald],
On Making Projector Both a Display Device and a 3d Sensor,
ISVC12(I: 654-664).
Springer DOI
1209
BibRef
Wang, O.,
Fuchs, M.,
Fuchs, C.,
Davis, J.,
Seidel, H.P.[Hans-Peter],
Lensch, H.P.A.[Hendrik P.A.],
A context-aware light source,
ICCP10(1-8).
IEEE DOI
1208
BibRef
de Charette, R.,
Tamburo, R.,
Barnum, P.C.,
Rowe, A.,
Kanade, T.,
Narasimhan, S.G.,
Fast reactive control for illumination through rain and snow,
ICCP12(1-10).
IEEE DOI
1208
BibRef
Dai, J.W.[Jing-Wen],
Chung, R.[Ronald],
Making any planar surface into a touch-sensitive display by a mere
projector and camera,
PROCAMS12(35-42).
IEEE DOI
1207
BibRef
Li, T.T.,
Zhang, H.Y.,
Geng, J.,
Geometric calibration of a camera-projector 3D imaging system,
IVCNZ10(1-8).
IEEE DOI
1203
BibRef
Chien, H.J.,
Chen, C.Y.,
Chen, C.F.,
A target-adapted geometric calibration method for camera-projector
system,
IVCNZ10(1-8).
IEEE DOI
1203
BibRef
Siriborvornratanakul, T.[Thitirat],
Multimodal Interface Towards Smartphones: The Use of Pico Projector,
Passive RGB Imaging and Active Infrared Imaging,
AMDO14(41-50).
Springer DOI
1407
BibRef
Siriborvornratanakul, T.[Thitirat],
Sugimoto, M.[Masanori],
Multiscale Visual Object Detection for Unsupervised Ubiquitous
Projection Based on a Portable Projector-Camera System,
DICTA10(623-628).
IEEE DOI
1012
BibRef
Earlier:
Clutter-aware dynamic projection system using a handheld projector,
ICARCV08(1271-1276).
IEEE DOI
1109
BibRef
Quang, L.B.[Lam Bui],
Kim, D.[Daesik],
Lee, S.[Sukhan],
Auto-focusing technique in a projector-camera system,
ICARCV08(1914-1919).
IEEE DOI
1109
BibRef
Yamashita, A.[Atsushi],
Miyaki, R.[Rie],
Kaneko, T.[Toru],
Color Information Presentation for Color Vision Defective by Using a
Projector Camera System,
CVMAR10(92-101).
Springer DOI
1109
Project names on the color regions.
BibRef
Yamazaki, S.[Shuntaro],
Mochimaru, M.[Masaaki],
Kanade, T.[Takeo],
Simultaneous self-calibration of a projector and a camera using
structured light,
PROCAMS11(60-67).
IEEE DOI
1106
BibRef
Kimura, M.[Makoto],
Mochimaru, M.[Masaaki],
Kanade, T.[Takeo],
Projector Calibration using Arbitrary Planes and Calibrated Camera,
PROCAMS07(1-2).
IEEE DOI
0706
BibRef
Garcia-Dorado, I.[Ignacio],
Cooperstock, J.[Jeremy],
Fully automatic multi-projector calibration with an uncalibrated camera,
PROCAMS11(29-36).
IEEE DOI
1106
BibRef
Martynov, I.[Ivan],
Kamarainen, J.K.[Joni-Kristian],
Lensu, L.[Lasse],
Projector Calibration by 'Inverse Camera Calibration',
SCIA11(536-544).
Springer DOI
1105
BibRef
Abe, D.[Daisuke],
Okatani, T.[Takayuki],
Deguchi, K.[Koichiro],
Flexible Online Calibration for a Mobile Projector-Camera System,
ACCV10(IV: 565-579).
Springer DOI
1011
BibRef
Horiuchi, T.[Takahiko],
Uno, M.[Makoto],
Tominaga, S.[Shoji],
Color Gamut Extension by Projector-Camera System,
ISVC10(I: 181-189).
Springer DOI
1011
BibRef
Takahashi, T.[Toru],
Kawano, T.[Tatsuya],
Ito, K.[Koichi],
Aoki, T.[Takafumi],
Kondo, S.[Satoshi],
Performance evaluation of a geometric correction method for
multi-projector display using SIFT and Phase-Only Correlation,
ICIP10(1189-1192).
IEEE DOI
1009
BibRef
Mosnier, J.[Jérémie],
Berry, F.[Francois],
Ait-Aider, O.[Omar],
A New Method for Projector Calibration Based on Visual Servoing,
MVA09(25-).
PDF File.
0905
BibRef
Yamanaka, T.[Takashi],
Sakaue, F.[Fumihiko],
Sato, J.[Jun],
Adaptive Image Projection onto Non-planar Screen Using Projector-Camera
Systems,
ICPR10(307-310).
IEEE DOI
1008
See also Multiplex Image Projection Using Multi-band Projectors.
BibRef
Park, S.Y.[Soon-Yong],
Park, G.G.[Go Gwang],
Active Calibration of Camera-Projector Systems Based on Planar
Homography,
ICPR10(320-323).
IEEE DOI
1008
BibRef
Kagami, S.[Shingo],
High-speed vision systems and projectors for real-time perception of
the world,
ECVW10(100-107).
IEEE DOI
1006
BibRef
Yapo, T.C.[Theodore C.],
Sheng, Y.[Yu],
Nasman, J.[Joshua],
Dolce, A.[Andrew],
Li, E.[Eric],
Cutler, B.[Barbara],
Dynamic projection environments for immersive visualization,
PROCAMS10(1-8).
IEEE DOI
1006
BibRef
Park, J.Y.[Ji-Young],
Kim, M.H.[Myoung-Hee],
Interactive display of image details using a camera-coupled mobile
projector,
PROCAMS10(9-16).
IEEE DOI
1006
BibRef
Jordan, S.[Samuel],
Greenspan, M.[Michael],
Projector optical distortion calibration using Gray code patterns,
PROCAMS10(72-79).
IEEE DOI
1006
BibRef
Audet, S.[Samuel],
Okutomi, M.[Masatoshi],
Tanaka, M.[Masayuki],
Direct image alignment of projector-camera systems with planar surfaces,
CVPR10(303-310).
IEEE DOI
1006
BibRef
Yamazaki, M.[Masaki],
Xu, G.[Gang],
3D reconstruction of glossy surfaces using stereo cameras and
projector-display,
CVPR10(1213-1220).
IEEE DOI
1006
BibRef
Wang, X.Y.[Xiang-Yu],
Ramanathan, S.[Subramanian],
Kankanhalli, M.[Mohan],
A robust framework for aligning lecture slides with video,
ICIP09(249-252).
IEEE DOI
0911
BibRef
Rohith, M.V.,
Somanath, G.[Gowri],
Norris, D.H.[Debra Hess],
Gutierrez, J.J.[Jennifer Jae],
Kambhamettu, C.[Chandra],
A camera flash based projector system for true scale metric
reconstruction,
WACV09(1-8).
IEEE DOI
0912
Pattern projector using camera flash.
BibRef
Leung, M.C.[Man Chuen],
Lee, K.K.[Kai Ki],
Wong, K.H.[Kin Hong],
Chang, M.M.Y.[Michael Ming Yuen],
A projector-based movable hand-held display system,
CVPR09(1109-1114).
IEEE DOI
0906
Project onto moveable screen.
BibRef
Vaquero, D.A.[Daniel A.],
Raskary, R.[Ramesh],
Feris, R.S.[Rogerio S.],
Turk, M.A.[Matthew A.],
A projector-camera setup for geometry-invariant frequency
demultiplexing,
CVPR09(2082-2089).
IEEE DOI
0906
BibRef
Furuakwa, R.[Ryo],
Inose, K.[Kenji],
Kawasaki, H.[Hiroshi],
Multi-view reconstruction for projector camera systems based on bundle
adjustment,
PROCAMS09(69-76).
IEEE DOI
0906
BibRef
Audet, S.[Samuel],
Okutomi, M.[Masatoshi],
A user-friendly method to geometrically calibrate projector-camera
systems,
PROCAMS09(47-54).
IEEE DOI
0906
BibRef
Kappal, S.J.[Sanjeev J.],
Narasimhan, S.G.[Srinivasa G.],
Illustrating motion through DLP photography,
PROCAMS09(9-16).
IEEE DOI
0906
BibRef
Barnum, P.C.[Peter C.],
Narasimhan, S.G.[Srinivasa G.],
A projector-camera system for creating a display with water drops,
PROCAMS09(17-23).
IEEE DOI
0906
BibRef
Amano, T.[Toshiyuki],
Projection Based Real-Time Material Appearance Manipulation,
CCD13(918-923)
IEEE DOI
1309
appearance manipulation
BibRef
Amano, T.[Toshiyuki],
Kato, H.[Hirokazu],
Appearance Control Using Projection with Model Predictive Control,
ICPR10(2832-2835).
IEEE DOI
1008
BibRef
And:
Appearance control by projector camera feedback for visually impaired,
PROCAMS10(57-63).
IEEE DOI
1006
BibRef
Earlier:
Appearance enhancement using a projector-camera feedback system,
ICPR08(1-4).
IEEE DOI
0812
irradiance correction and appearance enhancement
BibRef
Amano, T.[Toshiyuki],
Tamaki, T.[Toru],
An Appearance Based Fast Linear Pose Estimation,
MVA09(182-).
PDF File.
0905
3D pose. (1 rotation, 2 translations)
Estimation-by-Completion.
BibRef
Amano, T.[Toshiyuki],
Tamaki, T.[Toru],
3D Object Pose Estimation with Dense Sample Images 'Discussions about
Limitation of Parameter Estimation Ability by the Linear Regressions',
MVA09(287-).
PDF File.
0905
BibRef
Sakaue, F.[Fumihiko],
Sato, J.[Jun],
Calibration of projector-camera systems from virtual mutual projection,
ICPR08(1-4).
IEEE DOI
0812
BibRef
Kobayashi, S.[Shuhei],
Sakaue, F.[Fumihiko],
Sato, J.[Jun],
Multiple View Geometry of Projector-Camera Systems from Virtual Mutual
Projection,
PSIVT09(1070-1081).
Springer DOI
0901
BibRef
Matsumoto, H.[Hiroki],
Sato, J.[Jun],
Sakaue, F.[Fumihiko],
Multiview constraints in frequency space and camera calibration from
unsynchronized images,
CVPR10(1601-1608).
IEEE DOI
1006
BibRef
Shimizu, C.[Clement],
Terhorst, J.[Jim],
McConville, D.[David],
OmniMap: Projective Perspective Mapping API for Non-planar Immersive
Display Surfaces,
ISVC08(I: 975-986).
Springer DOI
0812
perspective corrections.
BibRef
Saadatseresht, M.,
Jafari, A.,
Direct Sensor-Oriented Calibration of the Projector in Coded Structured
Light System,
ISPRS08(B5: 119 ff).
PDF File.
0807
BibRef
Astre, B.[Benjamin],
Sarry, L.[Laurent],
Lohou, C.[Christophe],
Zeghers, E.[Eric],
Automatic calibration of a single-projector catadioptric display system,
CVPR08(1-8).
IEEE DOI
0806
BibRef
Zhang, J.[Jun],
Wang, B.P.[Bang-Ping],
Li, X.F.[Xiao-Feng],
Geometric Calibration of Projector Imagery on Curved Screen Based-on
Subdivision Mesh,
GMP08(xx-yy).
Springer DOI
0804
BibRef
Hamada, K.[Koji],
Sato, J.[Jun],
Calibration and Image Generation of Mobile Projector-Camera Systems,
CIAP07(93-98).
IEEE DOI
0709
BibRef
Tuddenham, P.[Philip],
Robinson, P.[Peter],
Improved Legibility of Text for Multiprojector Tiled Displays,
PROCAMS07(1-8).
IEEE DOI
0706
BibRef
Lee, H.W.[Hee-Won],
Lee, B.U.[Byung-Uk],
Improving Brightness for a Multi-projector Display Considering Image
Content,
ISVC06(II: 70-78).
Springer DOI
0611
BibRef
Liu, Y.F.[Yu-Fei],
Qian, G.[Gang],
Projector-Camera Guided Fast Environment Restoration of a Biofeedback
System for Rehabilitation,
PROCAMS07(1-2).
IEEE DOI
0706
BibRef
Jin, M.[Ming],
Zhang, H.[Hui],
Yang, X.[Xubo],
Xiao, S.J.[Shuang-Jiu],
A Real-Time ProCam System for Interaction with Chinese Ink-and-Wash
Cartoons,
PROCAMS07(1-2).
IEEE DOI
0706
BibRef
Johnson, T.[Tyler],
Fuchs, H.[Henry],
Real-Time Projector Tracking on Complex Geometry Using Ordinary Imagery,
PROCAMS07(1-1).
IEEE DOI
0706
BibRef
And:
PROCAMS07(1-8).
IEEE DOI
0706
BibRef
Mitsugami, I.[Ikuhisa],
Ukita, N.[Norimichi],
Kidode, M.[Masatsugu],
Displaying a Moving Image By Multiple Steerable Projectors,
PROCAMS07(1-8).
IEEE DOI
0706
BibRef
Habe, H.[Hitoshi],
Saeki, N.[Nobuo],
Matsuyama, T.[Takashi],
Inter-Reflection Compensation for Immersive Projection Display,
PROCAMS07(1-2).
IEEE DOI
0706
BibRef
Yang, R.G.[Rui-Gang],
Rudolf, D.R.[Daniel R.],
Raghunathan, V.[Vijai],
Flexible Pixel Compositor for Plug-and-Play Multi-Projector Displays,
PROCAMS07(1-2).
IEEE DOI
0706
BibRef
Roy, S.[Sebastien],
Scaling up multiprojector immersive displays: the LightTwist project,
3DIM07(117-117).
IEEE DOI
0708
BibRef
Park, H.[Hanhoon],
Lee, M.H.[Moon-Hyun],
Seo, B.K.[Byung-Kuk],
Shin, H.C.[Hong-Chang],
Park, J.I.[Jong-Il],
Radiometrically-Compensated Projection onto Non-Lambertian Surface
Using Multiple Overlapping Projectors,
PSIVT06(534-544).
Springer DOI
0612
BibRef
Park, H.[Hanhoon],
Lee, M.H.[Moon-Hyun],
Seo, B.K.[Byung-Kuk],
Park, J.I.[Jong-Il],
Undistorted Projection onto Dynamic Surface,
PSIVT06(582-590).
Springer DOI
0612
BibRef
Pages, J.[Jordi],
Collewet, C.[Christophe],
Chaumette, F.[Francois],
Salvi, J.[Joaquim],
A Camera-Projector System for Robot Positioning by Visual Servoing,
PROCAMS06(2).
IEEE DOI
0609
BibRef
Harville, M.[Michael],
Culbertson, B.[Bruce],
Sobel, I.[Irwin],
Gelb, D.[Dan],
Fitzhugh, A.[Andrew],
Tanguay, D.[Donald],
Practical Methods for Geometric and Photometric Correction of Tiled
Projector,
PROCAMS06(5).
IEEE DOI
0609
BibRef
Griesser, A.[Andreas],
Van Gool, L.J.[Luc J.],
Automatic Interactive Calibration of Multi-Projector-Camera Systems,
PROCAMS06(8).
IEEE DOI
0609
BibRef
Knyaz, V.A.,
Automated calibration technique for photogrammetric system based on a
multi-media projector and a CCD camera,
IEVM06(xx-yy).
PDF File.
0609
BibRef
Kushal, A.[Akash],
van Baar, J.[Jeroen],
Raskar, R.[Ramesh],
Beardsley, P.[Paul],
A Handheld Projector Supported by Computer Vision,
ACCV06(II:183-192).
Springer DOI
0601
BibRef
Beardsley, P.,
Forlines, C.,
Raskar, R.,
van Baar, J.[Jeroen],
Handheld Projectors for Mixing Physical and Digital Textures,
ProjCam05(III: 112-112).
IEEE DOI
0507
BibRef
Saito, H.[Hideo],
Ban, H.[Hitoshi],
Input and Display of Hand Drawn Pattern Onto Planar Board of Arbitrary
Position and Pose Utilizing a Projector and Two Cameras,
CIAP05(131-138).
Springer DOI
0509
BibRef
Song, P.[Peng],
Cham, T.J.[Tat-Jen],
A Theory for Photometric Self-Calibration of Multiple Overlapping
Projectors and Cameras,
ProjCam05(III: 97-97).
IEEE DOI
0507
BibRef
Sukthankar, R.[Rahul],
Cham, T.J.[Tat-Jen],
Sukthankar, G.[Gita],
Rehg, J.M.[Jim M.],
Self-Calibrating Camera Projector Systems for Interactive Displays and
Presentations,
ICCV01(II: 748).
IEEE DOI
0106
System Demo.
See also flexible projector-camera system for multi-planar displays, A.
See also Dynamic Shadow Elimination for Multi-Projector Displays.
BibRef
Mitsugami, I.,
Ukita, N.,
Kidode, M.,
Multi-Planar Projection by Fixed-Center Pan-Tilt Projectors,
ProjCam05(III: 108-108).
IEEE DOI
0507
Projection on multiple planes.
BibRef
Nii, H.,
Sugimoto, M.,
Inami, M.,
Smart Light-Ultra High Speed Projector for Spatial Multiplexing Optical
Transmission,
ProjCam05(III: 95-95).
IEEE DOI
0507
BibRef
Butz, A.,
Schmitz, C.,
Annotating Real World objects using a Steerable Projector-Camera Unit,
ProjCam05(III: 109-109).
IEEE DOI
0507
BibRef
Crasto, D.[Danny],
Jaynes, C.[Christopher],
The Smart Bookshelf: A Study of Camera Projector Scene Augmentation of
an Everyday Environment,
WACV05(I: 218-225).
IEEE DOI
PDF File.
0502
BibRef
Vieira, M.B.,
Velho, L.C.P.R.,
Sa, A.[Asla],
Carvalho, P.C.P.,
A Camera-Projector System for Real-Time 3D Video,
ProjCam05(III: 96-96).
IEEE DOI
0507
BibRef
Li, B.X.[Bao-Xin],
Sezan, I.,
Automatic keystone correction for smart projectors with embedded camera,
ICIP04(IV: 2829-2832).
IEEE DOI
0505
BibRef
Bhasker, E.S.[Ezekiel S.],
Majumder, A.[Aditi],
Geometric Modeling and Calibration of Planar Multi-Projector Displays
Using Rational Bezier Patches,
PROCAMS07(1-8).
IEEE DOI
0706
BibRef
Juang, R.[Ray],
Majumder, A.[Aditi],
Photometric Self-Calibration of a Projector-Camera System,
PROCAMS07(1-8).
IEEE DOI
0706
BibRef
Majumder, A.[Aditi],
Contrast Enhancement of Multi-Displays Using Human Contrast Sensitivity,
CVPR05(II: 377-382).
IEEE DOI
0507
BibRef
Majumder, A.,
Camera based evaluation of photometric compensation methods on
multi-projector displays,
ICIP04(V: 3527-3530).
IEEE DOI
0505
BibRef
Fujii, K.[Kensaku],
Grossberg, M.D.[Michael D.], and
Nayar, S.K.[Shree K.],
A Projector-Camera System with Real-Time Photometric Adaptation for
Dynamic Environments,
CVPR05(I: 814-821).
IEEE DOI
0507
BibRef
And:
CVPR05(II: 1180).
IEEE DOI
0507
Projection system for VR, but account for variations.
BibRef
Grossberg, M.D.,
Peri, H.,
Nayar, S.K.,
Belhumeur, P.N.,
Making one object look like another:
Controlling appearance using a projector-camera system,
CVPR04(I: 452-459).
IEEE DOI
0408
BibRef
Ashdown, M.[Mark],
Okabe, T.[Takahiro],
Sato, I.[Imari],
Sato, Y.[Yoichi],
Robust Content-Dependent Photometric Projector Compensation,
PROCAMS06(6).
IEEE DOI
0609
BibRef
Wang, D.[Dong],
Sato, I.,
Okabe, T.,
Sato, Y.,
Radiometric Compensation in a Projector-Camera System Based Properties
of Human Vision System,
ProjCam05(III: 100-100).
IEEE DOI
0507
BibRef
Ashdown, M.,
Sato, Y.,
Steerable Projector Calibration,
ProjCam05(III: 98-98).
IEEE DOI
0507
BibRef
Ashdown, M.,
Flagg, M.,
Sukthankar, R.,
Rehg, J.M.,
A flexible projector-camera system for multi-planar displays,
CVPR04(II: 165-172).
IEEE DOI
0408
See also Self-Calibrating Camera Projector Systems for Interactive Displays and Presentations.
See also Dynamic Shadow Elimination for Multi-Projector Displays.
BibRef
Raij, A.,
Pollefeys, M.,
Auto-calibration of multi-projector display walls,
ICPR04(I: 14-17).
IEEE DOI
0409
BibRef
Tardif, J.,
Roy, S.,
Trudeau, M.,
Multi-projectors for arbitrary surfaces without explicit calibration
nor reconstruction,
3DIM03(217-224).
IEEE DOI
0311
Project on irregular surface without distortions.
BibRef
Brown, M.S.,
Wong, W.K.H.,
Laser pointer interaction for camera-registered multi-projector
displays,
ICIP03(I: 913-916).
IEEE DOI
0312
BibRef
Raskar, R.[Ramesh],
Beardsley, P.[Paul],
A Self Correcting Projector,
CVPR01(II:504-508).
IEEE Abstract.
0110
Adjust for keystoning, etc.
BibRef
Sukthankar, R.[Rahul],
Cham, T.J.[Tat-Jen],
Sukthankar, G.[Gita],
Dynamic Shadow Elimination for Multi-Projector Displays,
CVPR01(II:151-157).
IEEE Abstract.
0110
Use multiple projectors to eliminate the shadows of the speaker.
Camera detects the shadow and adjusts the output of the projectors.
See also Self-Calibrating Camera Projector Systems for Interactive Displays and Presentations.
See also flexible projector-camera system for multi-planar displays, A.
BibRef
Cham, T.J.[Tat-Jen],
Rehg, J.M.,
Sukthankar, R.,
Sukthankar, G.,
Shadow Elimination and Occluder Light Suppression for Multi-Projector
Displays,
CVPR03(II: 513-520).
IEEE DOI
0307
BibRef
Earlier: A1, A4, A3 only:
CVPR01(Demos).
Nanyang Technological University
0110
BibRef
Onishi, M.,
Kagebayashi, T.,
Fukunaga, K.,
Production of Video Images by Computer Controlled Camera and Its
Application to TV Conference System,
CVPR01(II:131-137).
IEEE Abstract.
0110
BibRef
Onishi, M.,
Izumi, M.,
Fukunaga, K.,
Production of Video Images by Computer Controlled Camera Operation
Based on Distribution of Spatiotemporal Mutual Information,
ICPR00(Vol IV: 102-105).
IEEE DOI
0009
BibRef
Sukthankar, R.[Rahul],
Stockton, R.G.[Robert G.],
Mullin, M.D.[Matthew D.],
Smarter Presentations:
Exploiting Homography in Camera-Projector Systems,
ICCV01(I: 247-253).
IEEE DOI
0106
Fix the problems with projector alignment.
BibRef
Chapter on Active Vision, Camera Calibration, Mobile Robots, Navigation, Road Following continues in
Camera Calibration, Stereo, Robot Based, Movable .