15.1.4.5 Visibility Analysis

Edelsbrunner, H., O'Rourke, J., Welzl, E.,
Stationing Guards in Rectilinear Art Galleries,
CVGIP(27), No. 2, August 1984, pp. 167-176. BibRef 8408

Cameron, A., Durrant-Whyte, H.F.,
A Bayesian Approach to Optimal Sensor Placement,
IJRR(9), No. 5, 1990, pp. 70-88. BibRef 9000

Durrant-Whyte, H.F.,
On Uncertain Geometry in Robotics,
RA(4), No. 1, 1988, pp. xx. BibRef 8800

Teng, Y.A., DeMenthon, D.F., Davis, L.S.,
Stealth Terrain Navigation,
SMC(23), 1993, pp. 96-110. BibRef 9300
And:
Stealth Terrain Navigation with Bounding Overwatch,
DARPA92(979-989). BibRef

Teng, Y.A., DeMenthon, D.F., Davis, L.S.,
Stealth Terrain Navigation for Multi-Vehicle Path Planning,
PRAI(6), 1992, pp. 395-415. BibRef 9200

Trucco, E.[Emanuele], di Prima, M., Roberto, V.[Vito],
Visibility Scripts For Active Feature-Based Inspection,
PRL(15), No. 11, November 1994, pp. 1151-1164. BibRef 9411

Roberto, V.[Vito], Trucco, E.[Emanuele],
Sensor planning techniques and active visual inspection,
CIAP95(300-306).
WWW Version. 9509 BibRef

Nagy, G.,
Terrain Visibility,
Computers&Graphics(18), No. 6, November-December 1994, pp. 763-773. BibRef 9411

Huang, P.W., Lin, P.L.,
Visibility Inference Based on Spatial Knowledge Representation from Observers Perspective,
IJIS(12), No. 3, March 1997, pp. 191-202. 9703 BibRef

Kidner, D.B.[David B.], Rallings, P.J.[Philip J.], Ware, J.A.[J. Andrew],
Parallel Processing for Terrain Analysis in GIS: Visibility as a Case Study,
GeoInfo(1), No. 2, August 1997, pp. 183-207.
WWW Version. BibRef 9708

de Floriani, L.[Leila], Magillo, P.[Paola],
Visibility Computations on Hierarchical Triangulated Terrain Models,
GeoInfo(1), No. 3, October 1997, pp. 219-250.
WWW Version. See also Horizon Computation on a Hierarchical Triangulated Terrain Model. BibRef 9710

Krishnan, S.[Shankar], Manocha, D.[Dinesh],
Partitioning Trimmed Spline Surfaces into NonSelf-Occluding Regions for Visibility Computation,
GM(62), No. 4, July 2000, pp. 283-307. 0006 BibRef

Poorna, B., Easwarakumar, K.S.,
Visibility concepts in orthogonal polygon recognition,
PRL(22), No. 10, August 2001, pp. 1153-1159.
HTML Version. 0108 BibRef

Maloy, M.A.[Mark A.], and Dean, D.J.[Denis J.],
An Accuracy Assessment of Various GIS-Based Viewshed Delineation Techniques,
PhEngRS(67), No. 11, November 2001, pp. 1293-1298 Actual viewsheds from 11 viewpoints were field surveyed compared to predicted viewsheds generated using various commonly used elevation data sets, various data models, and various visibility criteria.
WWW Version. 0201 BibRef

Taycher, L.[Leonid], Darrell, T.J.[Trevor J.],
Range Segmentation Using Visibility Constraints,
IJCV(47), No. 1-3, April-June 2002, pp. 89-98.
WWW Version. 0203 BibRef
Earlier: SMBV01(xx-yy). 0110 BibRef
And: MIT AIM-2001-024, September 2001.
WWW Version. Segmentation, Range. 0205 BibRef

Taycher, L.[Leonid], Darrell, T.J.[Trevor J.],
Range-based Foreground Detection Using Visibility Constraints,
CVPR01(Demos 5-6). 0110 BibRef

Izraelevitz, D.[David],
A Fast Algorithm for Approximate Viewshed Computation,
PhEngRS(69), No. 7, July 2003, pp. 767-774. The cost of generating arbitrarily close approximations to the viewshed is reduced by an order of magnitude by careful reuse of previous computations.
WWW Version. 0307 BibRef

Rana, S.[Sanjay],
Fast Approximation of Visibility Dominance Using Topographic Features as Targets and the Associated Uncertainty,
PhEngRS(69), No. 8, August 2003, pp. 881-888. Use of fundamental topographic features such as peaks, pits, passes, channels, and ridges as targets in line-of-sight analysis reduces the computation time of visibility dominance without any signifant information loss.
WWW Version. 0309 BibRef

Isler, V.[Volkan], Kannan, S.[Sampath], Daniilidis, K.[Kostas], Valtr, P.[Pavel],
VC-Dimension of Exterior Visibility,
PAMI(26), No. 5, May 2004, pp. 667-671.
IEEE Abstract. IEEE Top Reference. 0404VC: Vapnik-Chervonenkis See also On the Uniform Convergence of Relative Frequencies of Events to Their Probabilities. How to determine what can be seen from where. BibRef

Yairi, T., Hori, K., Hirama, K.,
Qualitative map learning based on covisibility of objects,
SMC-B(35), No. 4, August 2005, pp. 779-800.
WWW Version. 0508 BibRef

Samadzadegan, F.[Farhad], Azizi, A.[Ali], Abootalebi, A.[Ahmad],
Automatic Determination of the Optimum Generic Sensor Model Based on Genetic Algorithm Concepts,
PhEngRS(71), No. 3, March 2005, pp. 277-287. A genetic algorithm was used to automatically determine the optimum term and order of Generic Sensor Models for geometric correction of satellite imagery.
WWW Version. 0509 BibRef

Saadatseresht, M., Samadzadegan, F.[Farhad], Azizi, A.[Ali],
ANN-based visibility prediction for camera placement in vision metrology,
CRV04(188-194).
IEEE Abstract. IEEE Top Reference. 0408 BibRef

Mittal, A.[Anurag], Davis, L.S.[Larry S.],
A General Method for Sensor Planning in Multi-Sensor Systems: Extension to Random Occlusion,
IJCV(76), No. 1, January 2008, pp. 31-52.
WWW Version. 0712 BibRef
Earlier:
Visibility Analysis and Sensor Planning in Dynamic Environments,
ECCV04(Vol I: 175-189).
WWW Version. 0405 BibRef

Mittal, A.[Anurag],
Generalized Multi-sensor Planning,
ECCV06(I: 522-535).
WWW Version. 0608Planning sensor configurations. Visibility constraints. BibRef

Ben-Moshe, B.[Boaz], Carmi, P.[Paz], Katz, M.J.[Matthew J.],
Approximating the Visible Region of a Point on a Terrain,
GeoInfo(12), No. 1, March 2008, pp. 21-36.
WWW Version. 0802 BibRef

Koldas, G.[Gurkan], Isler, V.[Veysi], Lau, R.W.H.[Rynson W. H.],
Six Degrees of Freedom Incremental Occlusion Horizon Culling Method for Urban Environments,
ISVC07(I: 792-803).
WWW Version. 0711 BibRef

Tang, Y.[Yang], Wu, H.Z.[Hui-Zhong], Xiao, F.[Fu], Xiao, L.[Liang],
Compute visibility without depth in multi-reference images,
ICARCV04(II: 815-820).
WWW Version. 0412 BibRef

Kaucic, B., Zalik, B.,
An Overview of Visibility Problem Algorithms in 1.5D,
WSCG02(241).
WWW Version.
HTML Version. 0209 BibRef

Houpert, S.,
Inverse Simulation of Sunshine: Visibility and Reflection in Architectural and Urban Spaces,
WSCG02(217).
PDF Version.
HTML Version. 0209 BibRef

Kang, S.B.[Sing Bang], Seitz, S.M.[Steven M.], Sloan, P.P.[Peter-Pike],
Visual Tunnel Analysis for Visibility Prediction and Camera Planning,
CVPR00(II: 195-202).
IEEE Abstract. IEEE Top Reference.
WWW Version. 0005from a sequence taken by moving along a path BibRef

Stevens, M.R.[Mark R.], Beveridge, J.R.[J. Ross],
Multisensor Occlusion Reasoning,
ICPR98(Vol I: 210-214).
WWW Version. 9808 BibRef

Sirakov, N.M.[Nikolai Metodiev],
A fast approach for determining of visibility of 3D object's surfaces,
CIAP97(II: 292-299).
WWW Version. 9709 BibRef

McDermott, D., Gelsey, A.,
Terrain Analysis For Tactical Situation Assessment,
SPMSF87(420-429). BibRef 8700

Chapter on Active Vision, Camera Calibration, Mobile Robots, Navigation, Road Following continues in
Active Vision: Foveal Sensing .