Kutulakos, K.N.,
Dyer, C.R.,
Recovering Shape by Purposive Viewpoint Adjustment,
IJCV(12), No. 2-3, April 1994, pp. 113-136.
WWW Version.
BibRef
9404
Earlier:
CVPR92(16-22).
IEEE Abstract. IEEE Top Reference.
BibRef
And:
Univ. of WisconsinTR 1035. 1992.
Cylinders from multiple viewpoints using the contour and observer
motion, and generate the viewpoint needed.
BibRef
Kutulakos, K.N.,
Dyer, C.R.,
Toward Global Surface Reconstruction by
Purposive Viewpoint Adjustment,
CVPR93(726-727).
IEEE Abstract. IEEE Top Reference.
Postscript Version.
BibRef
9300
Kutulakos, K.N.[Kiriakos N.],
Affine Surface Reconstruction by Purposive Viewpoint Control,
ICCV95(894-901).
WWW Version.
WWW Version.
BibRef
9500
Kutulakos, K.N.,
Jagersand, M.,
Exploring Objects by Invariant-Based Tangential Viewpoint Control,
SCV95(503-508).
IEEE Top Reference. University of Rochester.
BibRef
9500
Kutulakos, K.N.,
Seales, W.B., and
Dyer, C.R.,
Building Global Object Models by Purposive Viewpoint Control,
CADBV94(169-182).
WWW Version.
BibRef
9400
Kutulakos, K.N.,
Dyer, C.R.,
Occluding Contour Detection Using Affine Invariants and
Purposive Viewpoint Control,
CVPR94(323-330).
IEEE Abstract. IEEE Top Reference.
WWW Version.
BibRef
9400
Kutulakos, K.N.,
Dyer, C.R.,
Global Surface Reconstruction by Purposive Control of Observer Motion,
AI(78), No. 1-2, October 1995, pp. 147-177.
WWW Version.
BibRef
9510
Earlier:
CVPR94(331-338).
IEEE Abstract. IEEE Top Reference.
BibRef
And:
Univ. of WisconsinTR 1141, 1994.
WWW Version.
BibRef
Kutulakos, K.N.[Kiriakos N.],
Dyer, C.R.[Charles R.], and
Lumelsky, V.J.[Vladimir J.],
Provable Strategies for Vision-Guided Exploration in Three Dimensions,
CRA94(1365-1372).
WWW Version.
BibRef
9400
Kutulakos, K.N.[Kiriakos N.],
Lumelsky, V.J.[Vladimir J.], and
Dyer, C.R.[Charles R.],
Vision-Guided Exploration:
A Step toward General Motion Planning in Three Dimensions,
CRA93(289-296).
Postscript Version.
BibRef
9300
And:
Univ. of WisconsinCS TR 1111, 1993.
Postscript Version.
BibRef
Kutulakos, K.N.[Kiriakos N.],
Dyer, C.R.[Charles R.], and
Lumelsky, V.J.[Vladimir J.],
Object Exploration by Purposive, Dynamic Viewpoint Adjustment,
Univ. of Wisconsin1124, November 1992.
Postscript Version.
BibRef
9211
Kutulakos, K.N.[Kiriakos N.],
Exploring Three-Dimensional Objects by Controlling the
Point of Observation,
Ph.D.December 1994,
BibRef
9412
Univ. of Wisconsin
WWW Version.
BibRef
Eltoft, T.,
de Figueiredo, R.J.P.,
Illumination control as a means of enhancing image features in active
vision systems,
IP(4), No. 11, November 1995, pp. 1520-1530.
WWW Version.
0402
BibRef
Chaumette, F.[Francois],
Boukir, S.,
Bouthemy, P.,
Juvin, D.,
Structure from Controlled Motion,
PAMI(18), No. 5, May 1996, pp. 492-504.
IEEE Abstract. IEEE Top Reference.
WWW Version.
9606
BibRef
Chaumette, F.,
Boukir, S.,
Bouthemy, P.,
Juvin, D.,
Optimal Estimation of 3D Structures Using Visual Servoing,
CVPR94(347-354).
IEEE Abstract. IEEE Top Reference.
BibRef
9400
Boukir, S.,
Bouthemy, P.,
Chaumette, F.,
Juvin, D.,
Real-Time Contour Matching over Time in an Active Vision Context,
SCIA93(I: 113-120).
BibRef
9300
Sundareswaran, V.,
Bouthemy, P.,
Chaumette, F.,
Active Camera Self-Orientation Using Dynamic Image Parameters,
ECCV94(B:110-116).
WWW Version.
BibRef
9400
Madsen, C.B.,
Christensen, H.I.,
A Viewpoint Planning Strategy for Determining True Angles on
Polyhedral Objects by Camera Alignment,
PAMI(19), No. 2, February 1997, pp. 158-163.
IEEE Abstract. IEEE Top Reference.
WWW Version.
9703
BibRef
Earlier:
Determining angles with a movable observer,
ICPR94(A:280-284).
WWW Version.
9410Move the camera to align the edge of an object. Rather than using the
length of edge segments, use the apparent angle between edge segments
and the junction. Determine the angle of the junction within 1deg and
align the camera within 6deg.
BibRef
Madsen, C.B.,
Christensen, H.I.,
Reactive View Planning for Quantification of Local Geometry,
CVPR94(823-828).
IEEE Abstract. IEEE Top Reference.
BibRef
9400
And:
Ph.D.Thesis, Aalborg Univ. October 1994.
BibRef
Christensen, T.,
Noergaard, M.,
Madsen, C.B.,
Hoover, A.,
Sensor networked mobile robotics,
CVPR00(II: 782-783).
IEEE Abstract. IEEE Top Reference.
WWW Version.
0403
BibRef
Kovacic, S.[Stane],
Leonardis, A.[Ale],
Pernu, F.[Franjo],
Planning Sequences of Views for 3-D Object Recognition and
Pose Determination,
PR(31), No. 10, October 1998, pp. 1407-1417.
WWW Version.
9808
BibRef
Earlier: A3, A2, A1:
Planning multiple views for 3-D object recognition and pose
determination,
CAIP97(424-431).
WWW Version.
9709
BibRef
Earlier: A2, A1, A3:
Recognition and pose determination of 3-D objects using multiple views,
CAIP95(778-783).
WWW Version.
9509
BibRef
Marchand, E.[Eric],
Chaumette, F.[Francois],
Active Vision for Complete Scene Reconstruction and Exploration,
PAMI(21), No. 1, January 1999, pp. 65-72.
IEEE Abstract. IEEE Top Reference.
WWW Version.
BibRef
9901
Earlier:
Controlled Camera Motions for Scene Reconstruction and Exploration,
CVPR96(169-176).
IEEE Abstract. IEEE Top Reference.
WWW Version. Structure from controlled motion.
BibRef
Marchand, E.[Eric],
Chaumette, F.[Francois],
An Autonomous Active Vision System for Complete and Accurate 3D Scene
Reconstruction,
IJCV(32), No. 3, August 1999, pp. 171-194.
WWW Version.
BibRef
9908
Banta, J.E.,
Wong, L.M.,
Dumont, C.,
Abidi, M.A.,
A Next-Best-View System for Autonomous 3-D Object Reconstruction,
SMC-A(30), No. 5, September 2000, pp. 589-597.
IEEE Top Reference.
0010
BibRef
Lin, C.Y.[Chung-Yi],
Shih, S.W.[Sheng-Wen],
Hung, Y.P.[Yi-Ping],
Tang, G.Y.[Gregory Y.],
A New Approach to Automatic Reconstruction of a 3-D World Using Active
Stereo Vision,
CVIU(85), No. 2, February 2002, pp. 117-143.
WWW Version.
0210
BibRef
Hung, Y.P.[Yi-Ping],
Shih, S.W.[Sheng-Wen],
Lin, C.Y.[Chung-Yi],
Toward Automatic Reconstruction of 3D Environment with an
Active Binocular Head,
ICPR98(Vol II: 1708-1710).
WWW Version.
9808
BibRef
Olague, G.[Gustavo],
Mohr, R.[Roger],
Optimal camera placement for accurate reconstruction,
PR(35), No. 4, April 2002, pp. 927-944.
WWW Version.
0201
BibRef
Earlier:
Optimal Camera Placement to Obtain Accurate 3D Point Positions,
ICPR98(Vol I: 8-10).
WWW Version.
9808
BibRef
Dunn, E.[Enrique],
Olague, G.[Gustavo],
Lutton, E.[Evelyne],
Parisian camera placement for vision metrology,
PRL(27), No. 11, August 2006, pp. 1209-1219.
WWW Version. Accurate 3D reconstruction; Photogrammetric network design;
Evolutionary computation; Parisian approach
0606
BibRef
Trujillo, L.[Leonardo],
Olague, G.[Gustavo],
de Vega, F.F.[Francisco Fernández],
Lutton, E.[Evelyne],
Selecting Local Region Descriptors with a Genetic Algorithm for
Real-World Place Recognition,
EvoIASP08(xx-yy).
WWW Version.
0804
BibRef
Chen, S.Y.,
Li, Y.F.,
Automatic Sensor Placement for Model-Based Robot Vision,
SMC-B(34), No. 1, February 2004, pp. 393-408.
IEEE Abstract. IEEE Top Reference.
0403
BibRef
Earlier:
A Method of Automatic Sensor Placement for Robot Vision
in Inspection Tasks,
CRA02(2545-2550).
shortest path, Inspection, object inspection
BibRef
Davis, J.W.[James W.],
Morison, A.M.[Alexander M.],
Woods, D.D.[David D.],
An adaptive focus-of-attention model for video surveillance and
monitoring,
MVA(18), No. 1, February 2007, pp. 41-64.
WWW Version.
0702Automatically build a scene model using a PTZ camera.
BibRef
Sharif, B.[Behzad],
Kamalabadi, F.[Farzad],
Optimal Sensor Array Configuration in Remote Image Formation,
IP(17), No. 2, February 2008, pp. 155-166.
WWW Version.
0801Tomographic and interferometric imaging.
BibRef
Kamalabadi, F.,
Sharif, B.,
Robust regularized tomographic imaging with convex projections,
ICIP05(II: 205-208).
BibRef
0500
Chen, X.[Xing],
Davis, J.E.[James E.],
An occlusion metric for selecting robust camera configurations,
MVA(19), No. 4, July 2008, pp. xx-yy.
WWW Version.
0711
BibRef
Czarlinska, A.[Alexandra],
Kundur, D.[Deepa],
Event-Driven Visual Sensor Networks: Issues in Reliability,
WACV08(1-6).
WWW Version.
0801
BibRef
Shafique, K.[Khurram],
Hakeem, A.[Asaad],
Javed, O.[Omar],
Haering, N.[Niels],
Self Calibrating Visual Sensor Networks,
WACV08(1-6).
WWW Version.
0801
BibRef
Gupta, A.[Abhinav],
Mittal, A.[Anurag],
Davis, L.S.[Larry S.],
COST: An Approach for Camera Selection and Multi-Object Inference
Ordering in Dynamic Scenes,
ICCV07(1-8).
WWW Version.
0710
BibRef
Zheng, J.Y.[Jiang Yu],
Wang, X.L.[Xiao-Long],
View Planning for Cityscape Archiving and Visualization,
ACCV07(I: 303-313).
WWW Version.
0711Registering images to city for retrieval.
Plan path to acquire images.
BibRef
Wenhardt, S.[Stefan],
Deutsch, B.[Benjamin],
Angelopoulou, E.[Elli],
Niemann, H.[Heinrich],
Active Visual Object Reconstruction using D-, E-, and T-Optimal Next
Best Views,
MultiView07(1-7).
WWW Version.
0706
BibRef
Null, B.D.[Bradley D.],
Sinzinger, E.D.[Eric D.],
Next Best View Algorithms for Interior and Exterior Model Acquisition,
ISVC06(II: 668-677).
WWW Version.
0611
BibRef
Marinakis, D.[Dimitri],
Dudek, G.[Gregory],
Topology Inference for a Vision-Based Sensor Network,
CRV05(121-128).
WWW Version.
0505
BibRef
Bodor, R.,
Schrater, P.,
Papanikolopoulos, N.,
Multi-camera positioning to optimize task observability,
AVSBS05(552-557).
WWW Version.
0602
BibRef
Tan, J.K.[Joo Kooi],
Yamaguchi, I.,
Tabusa, T.,
lvhikawa, S.,
Hirokawa, S.,
Various image taking strategies for 3-d object modeling based on
multiple cameras,
ICIP04(IV: 2487-2490).
WWW Version.
0505
BibRef
Callieri, M.,
Cignoni, P.,
Fasano, A.,
Montani, C.,
Pingi, P.,
Ponchio, F.,
Scopigno, R.[Roberto],
Enhancing processing and visualization efficiency of 3D Scanned Meshes,
CREST05(58-64).
WWW Version.
0505
BibRef
Callieri, M.,
Fasano, A.,
Impoco, G.,
Cignoni, P.,
Scopigno, R.,
Parrini, G.,
Biagini, G.,
RoboScan: an automatic system for accurate and unattended 3D scanning,
3DPVT04(805-812).
IEEE Abstract. IEEE Top Reference.
0412Plan views for robot arm based laser scanner.
BibRef
Scopigno, R.[Roberto],
3D Scanning: Improving completeness, processing speed and visualization,
VMV04(355).
0411
BibRef
Zabulis, X.,
Daniilidis, K.,
Multi-camera reconstruction based on surface normal estimation and best
viewpoint selection,
3DPVT04(733-740).
IEEE Abstract. IEEE Top Reference.
0412
BibRef
Rzhanov, Y.,
Huff, L.,
Cutter, G.R.,
Seafloor video mapping: modeling, algorithms, apparatus,
ICIP02(I: 868-871).
IEEE Abstract. IEEE Top Reference.
0210
BibRef
Futami, S.,
Nagai, T.,
Kurematsu, A.,
3D modeling of real environments by autonomous mobile robot with stereo
vision,
ICIP02(I: 856-859).
IEEE Abstract. IEEE Top Reference.
0210
BibRef
Spletzer, J.R.[John R.],
Taylor, C.J.[Camillo J.],
A Framework for Sensor Planning and Control with Applications to Vision
Guided Multi-Robot Systems,
CVPR01(I:378-383).
IEEE Abstract. IEEE Top Reference.
0110Control the team of robots to optimize the model.
BibRef
Armstrong, P.J.,
Antonis, J.,
The Construction of 3 Dimensional Models Using an Active Computer
Vision System,
ECCV00(II: 182-196).
WWW Version.
0003
BibRef
Zha, H.B.[Hong-Bin],
Hasegawa, T.[Tsutomu],
Morooka, K.[Ken'ichi],
Next best viewpoint (NBV) planning for active object modeling based on
a learning-by-showing approach,
ICPR98(Vol I: 677-681).
WWW Version.
9808
BibRef
Morooka, K.,
Zha, H.B.[Hong-Bin],
Hasegawa, T.,
Computations on a spherical view space for efficient planning of
viewpoints in 3-D object modeling,
3DIM99(138-147).
WWW Version.
9910
BibRef
Zha, H.,
Morooka, K.,
Hasegawa, T.,
Nagata, T.,
Active Modeling of 3D Objects:
Planning on the Next Best Pose (NBP) for Acquiring Range Images,
3DIM97(3 - View Planning)
9702
BibRef
Shmuel, A., and
Werman, M.,
Occlusions and Perspective in an Image Sequence,
VF91(495-506).
BibRef
9100
And:
3D from an Image Sequence: Occlusions and Perspective,
CVPR91(712-713).
IEEE Abstract. IEEE Top Reference.
BibRef
And:
Hebrew Univ.of Jerusalem, 91-3, 1991.
BibRef
And:
Active Vision: 3D from an Image Sequence,
ICPR90(I: 48-54).
WWW Version.
BibRef
Xie, S.E.,
Calvert, T.W.,
Bhattacharya, B.K.,
Planning Views for the Incremental Construction of Body Models,
ICPR86(154-157).
BibRef
8600
Chapter on Active Vision, Camera Calibration, Mobile Robots, Navigation, Road Following continues in
Planning Vehicle Position or Path Planning .