4.8 Perceptual Grouping, Perceptual Organization Techniques, Saliency

4.8.1 Perceptual Grouping, Saliency, Theory

Koffka, K.,
Principles of Gestalt Psychology,
New York: Harcourt, Brace and World1935. BibRef 3500 BookGeneral Gestalt psychology book. BibRef

Garner, W.R.,
The Processing of Information and Structure,
Erlbaum1974. BibRef 7400

Kanizsa, G.,
Organization in Vision: Essays on Gestalt Perception,
New York: Praeger1979. The vision reference to grouping and Gestalt psychology. BibRef 7900

Attneave, F.,
Some Informational Aspects of Visual Perception,
PsychR(61), No. 3, 1954, pp. 183-193.
WWW Version. Apply Information Theory concepts to perception. Information is concentrated at points of high curvature. BibRef 5400

Attneave, F., and Arnoult, M.D.,
The Quantitative Study of Shape and Pattern Perception,
PsychBul(xx), 1956, pp. 452-471. BibRef 5600

Hochberg, J.E., McAllister, E.,
A Quantitative Approach to Figural 'Goodness',
JEP(46), 1953, pp. 361-364. BibRef 5300

Parker, D.J., Moore, D.J.H.,
End Points, Complexity, and Visual Illusions,
SMC(2), July 1972, pp. 421-429. BibRef 7207

Zahn, C.T.,
Graph-Theoretical Methods for Detecting and Describing Gestalt Clusters,
TC(20), No. 1, January 1971, pp. 68-86. Using a graph representation for finding clusters. BibRef 7101

Zobrist, A.L., and Thompson, W.B.,
Building a Distance Function for Gestalt Grouping,
TC(24), No. 7, July 1975, pp. 711-719. BibRef 7507

Zucker, S.W.,
Computational and Psychophysical Experiments in Grouping: Early Orientation Selection,
HMV83(545-567). BibRef 8300

Zucker, S.W.,
Early Orientation Selection: Tangent Fields and the Dimensionality of Their Support,
CVGIP(32), No. 1, October 1985, pp. 74-103.
WWW Version. BibRef 8510
And: RCV87(333-347). BibRef

Zucker, S.W.,
Early Orientation Selection: Inferring Trace, Tangent, and Curvature Fields,
PRAI(2), 1988, pp. 443-457. BibRef 8800
And: ICPR86(294-302). BibRef

Palmer, S.E.,
The Psychology of Perceptual Organization: A Transformational Approach,
HMV83(269-339). Use local invariance over a group of transformations. BibRef 8300

Witkin, A.P., and Tenenbaum, J.M.,
On the Role of Structure in Vision,
HMV83(481-543). BibRef 8300
And:
What is Perceptual Organization for?,
IJCAI83(XX-YY). Non-accidentalness. Regular relationships do not arise from accidents. BibRef

Triesman, A.,
Preattentive Processing in Vision,
CVGIP(31), No. 2, August 1985, pp. 156-177.
WWW Version. BibRef 8508

Leyton, M.,
Generative Systems Of Analyzers,
CVGIP(31), No. 2, August 1985, pp. 201-241.
WWW Version. BibRef 8508

Leyton, M.,
Perceptual Organization as Nested Control,
BioCyber(51), 1984, pp. 141-153. BibRef 8400

Leyton, M.[Michael],
Nested structures of control: An intuitive view,
CVGIP(37), No. 1, January 1987, pp. 20-53.
WWW Version. 0501
BibRef

Triesman, A.,
Perceptual Grouping and Attention in Visual Search for Features and Objects,
JEP:HPP(8), No. 2, 1982, pp. 194-214. BibRef 8200

Pentland, A.P.,
Perceptual Organization and the Representation of Natural Form,
AI(28), No. 3, May 1986, pp. 293-331.
WWW Version. Deformable Solids. BibRef 8605

Yip, K., and Zhao, F.,
Spatial Aggregation: Theory and Applications,
JAIR(5), 1996, pp. 1-26.
HTML Version. Imagistic reasoning to produce a description of the structure, behavior, or control actions. BibRef 9600

Murino, V., Regazzoni, C.S., Foresti, G.L.,
Grouping as a Searching Process for Minimum-Energy Configurations of Labeled Random-Fields,
CVIU(64), No. 1, July 1996, pp. 157-174.
WWW Version. 9608
See also Grouping of Rectilinear Segments by the Labeled Hough Transform. BibRef

Castaño, R.L., Hutchinson, S.A.[Seth A.],
A Probabilistic Approach to Perceptual Grouping,
CVIU(64), No. 3, November 1996, pp. 399-419.
WWW Version. 9612
BibRef
Earlier:
A Probabilistic Framework for Grouping Image Features,
SCV95(611-616).
IEEE Top Reference. University of Illinois at Urbana-Champaign. BibRef

Bottoni, P., Cinque, L., Levialdi, S., Mussio, P.,
Matching the Resolution Level to Salient Image Features,
PR(31), No. 1, January 1998, pp. 89-104.
WWW Version. 9802
BibRef

Bottoni, P., Cinque, L., Levialdi, S., Lombardi, L., Mussio, P.,
Combining resolution and granularity for pattern recognition,
CIAP95(502-508).
Springer DOI Link 9509
BibRef

Bottoni, P., Mussio, P., Protti, M.,
Metareasoning as a tool for pattern recognition,
ICPR92(II:285-289).
IEEE DOI Link 9208
BibRef

Vasseur, P., Pegard, C., Mouaddib, E.M., Delahoche, L.,
Perceptual organization approach based on Dempster-Shafer theory,
PR(32), No. 8, August 1999, pp. 1449-1462.
WWW Version. BibRef 9908

Roerdink, J.B.T.M.[Jos B.T.M.],
Group morphology,
PR(33), No. 6, June 2000, pp. 877-895.
WWW Version. 0004
BibRef

Roerdink, J.B.T.M.[Jos B.T.M.],
Adaptivity and group invariance in mathematical morphology,
ICIP09(2253-2256).
IEEE DOI Link 0911
BibRef

Jacobs, D.W.[David W.], Lindenbaum, M.[Michael],
Guest editors' introduction to the special section on perceptual organization in computer vision,
PAMI(25), No. 4, April 2003, pp. 385-386.
IEEE Abstract. 0304
BibRef
And: PAMI(25), No. 6, June 2003, pp. 641-641.
IEEE Abstract. 0306
Two issues. Papers grew out of the POCV workshop (see BibRef PercOrg01) BibRef

Engbers, E.A.[Erik A.], Smeulders, A.W.M.[Arnold W.M.],
Design considerations for generic grouping in vision,
PAMI(25), No. 4, April 2003, pp. 445-457.
IEEE Abstract. 0304
Formal characterization of perceptual grouping. BibRef

Desolneux, A.[Agnes], Moisan, L.[Lionel], Morel, J.M.[Jean-Michel],
A grouping principle and four applications,
PAMI(25), No. 4, April 2003, pp. 508-513.
IEEE Abstract. 0304
Statistical criterion to test whether a cluster is meaningful. See also Meaningful Alignments. See also Edge Detection by Helmholtz Principle. See also Dequantizing image orientation. BibRef

Yantis, S.,
How visual salience wins the battle for awareness,
Nature Neuroscience(8), No. 8, 2005, pp. 975-977. BibRef 0500

Berengolts, A.[Alexander], Lindenbaum, M.[Michael],
On the Distribution of Saliency,
PAMI(28), No. 12, December 2006, pp. 1973-1990.
IEEE DOI Link 0611
BibRef
Earlier: CVPR04(II: 543-549).
IEEE Abstract. 0408
BibRef

Lindenbaum, M., Berengolts, A.,
A Probabilistic Interpretation of the Saliency Network,
ECCV00(II: 257-272).
WWW Version. 0003
BibRef

Zlatoff, N.[Nicolas], Tellez, B.[Bruno], Baskurt, A.[Atilla],
Combining local belief from low-level primitives for perceptual grouping,
PR(41), No. 4, April 2008, pp. 1215-1229.
WWW Version. 0801
BibRef
Earlier:
Image understanding and scene models: a generic framework integrating domain knowledge and gestalt theory,
ICIP04(IV: 2355-2358).
IEEE DOI Link 0505
Perceptual grouping; Segmentation; Gestalt laws; Pre-attentive vision; Dempster-Shafer BibRef

Desolneux, A.[Agnès], Moisan, L.[Lionel], Morel, J.M.[Jean-Michel],
From Gestalt Theory to Image Analysis: A Probabilistic Approach,
Springer2008, ISBN: 978-0-387-72635-9.
WWW Version. BibRef 0800

Desolneux, A.[Agnès],
A Probabilistic Grouping Principle to Go from Pixels to Visual Structures,
DGCI11(1-12).
Springer DOI Link 1104
BibRef

Pal, R., Mukherjee, A., Mitra, P., Mukherjee, J.,
Modelling visual saliency using degree centrality,
IET-CV(4), No. 3, September 2010, pp. 218-229.
WWW Version. 1008
BibRef

Rahman, A., Houzet, D., Pellerin, D., Marat, S., Guyader, N.,
Parallel implementation of a spatio-temporal visual saliency model,
RealTimeIP(6), No. 1, March 2011, pp. 3-14.
WWW Version. 1103
BibRef

Seo, H.J.[Hae Jong], Milanfar, P.[Peyman],
Static and Space-Time Visual Saliency Detection by Self-Resemblance,
Vision(9), No. 12, 2009, pp. 1-17.
WWW Version. BibRef 0900
Earlier:
Nonparametric bottom-up saliency detection by self-resemblance,
VCL-ViSU09(45-52).
IEEE DOI Link 0906
Bottom-up detection. BibRef

Ron, E.[Eldar], Spitzer, H.[Hedva],
Is the Kanizsa illusion triggered by the simultaneous contrast mechanism?,
JOSA-A(28), No. 12, December 2011, pp. 2629-2641.
WWW Version. 1112
BibRef

Duncan, K.[Kester], Sarkar, S.[Sudeep],
REM: Relational Entropy-Based Measure of Saliency,
ICCVGIP10(40-47).
WWW Version. 1111
BibRef

Ardizzone, E.[Edoardo], Bruno, A.[Alessandro], Mazzola, G.[Giuseppe],
Visual Saliency by Keypoints Distribution Analysis,
CIAP11(I: 691-699).
Springer DOI Link 1109
See also Detecting multiple copies in tampered images. BibRef

Tavakoli, H.R.[Hamed Rezazadegan], Rahtu, E.[Esa], Heikkilä, J.[Janne],
Fast and Efficient Saliency Detection Using Sparse Sampling and Kernel Density Estimation,
SCIA11(666-675).
Springer DOI Link 1105
BibRef

Goferman, S.[Stas], Zelnik-Manor, L.[Lihi], Tal, A.[Ayellet],
Context-aware saliency detection,
CVPR10(2376-2383).
IEEE DOI Link Video of talk:
WWW Version. 1006
BibRef

Wang, W.[Wei], Wang, Y.Z.[Yi-Zhou], Huang, Q.M.[Qing-Ming], Gao, W.[Wen],
Measuring visual saliency by Site Entropy Rate,
CVPR10(2368-2375).
IEEE DOI Link Video of talk:
WWW Version. 1006
BibRef

Bruce, N.D.B.[Neil D.B.], Shi, X.[Xun], Simine, E.[Evgueni], Tsotsos, J.K.[John K.],
Visual Representation in the Determination of Saliency,
CRV11(242-249).
IEEE DOI Link 1105
BibRef

Shi, X.[Xun], Bruce, N.D.B.[Neil D. B.], Tsotsos, J.K.[John K.],
Fast, recurrent, attentional modulation improves saliency representation and scene recognition,
WBCV11(1-8).
IEEE DOI Link 1106
BibRef

Bruce, N.D.B.[Neil D.B.], Kornprobst, P.[Pierre],
On the role of context in probabilistic models of visual saliency,
ICIP09(3089-3092).
IEEE DOI Link 0911
BibRef

Li, Y.[Yin], Zhou, Y.[Yue], Xu, L.[Lei], Yang, X.C.[Xiao-Chao], Yang, J.[Jie],
Incremental sparse saliency detection,
ICIP09(3093-3096).
IEEE DOI Link 0911
BibRef

Wong, L.K.[Lai-Kuan], Low, K.L.[Kok-Lim],
Saliency retargeting: An approach to enhance image aesthetics,
WACV11(73-80).
IEEE DOI Link 1101
BibRef
Earlier:
Saliency-enhanced image aesthetics class prediction,
ICIP09(997-1000).
IEEE DOI Link 0911
BibRef

Bileschi, S.M.[Stanley M.], Wolf, L.B.[Lior B.],
Image representations beyond histograms of gradients: The role of Gestalt descriptors,
CVPR07(1-8).
IEEE DOI Link 0706
BibRef

Pila, M.,
The saliency grouping field,
ICIP04(IV: 2307-2310).
IEEE DOI Link 0505
BibRef

Kadir, T.[Timor], Zisserman, A.[Andrew], Brady, M.[Michael],
An Affine Invariant Salient Region Detector,
ECCV04(Vol I: 228-241).
WWW Version. 0405
BibRef

Perona, P.[Pietro],
The Emergence of Visual Categories: A Computational Perspective,
SCIA03(1-3).
WWW Version. 0310
BibRef

Yu, S.,
Computational Models of Perceptual Organization,
CMU-RI-TR-03-14, May, 2003. BibRef 0305 Ph.D.Thesis
HTML Version. 0306
BibRef

Yu, S.X.[Stella X.], Lisin, D.A.[Dimitri A.],
Image Compression Based on Visual Saliency at Individual Scales,
ISVC09(I: 157-166).
Springer DOI Link 0911
BibRef

Lisin, D.A.[Dimitri A.], Riseman, E.M.[Edward M.], Hanson, A.R.[Allen R.],
Extracting Salient Image Features for Reliable Matching Using Outlier Detection Techniques,
CVS03(481 ff).
HTML Version. 0306
BibRef

Lisin, D.A., Riseman, E.M., Hanson, A.R.,
Extracting Salient Image Features Using Outlier Detection Techniques,
UMassCS TR 2003-2, January, 2003.
Postscript Version. BibRef 0301

Johannes, M.[Marc], Sebastian, T.B.[Thomas B.], Tek, H.[Huseyin], Kimia, B.B.[Benjamin B.],
Perceptual Organization as Object Recognition Divided by Two,
PercOrg01(xx-yy). 0106
BibRef

Sakai, K.[Ko],
A Network Mechanism for the Determination of Apparent Orientation,
ICPR00(Vol III: 955-958).
IEEE DOI Link 0009
BibRef

Wong, H., Guan, L.,
Characterization of Perceptual Importance for Object-based Image Segmentation,
ICIP00(Vol III: 54-57).
IEEE Abstract. 0008
BibRef

Younes, L.,
Calibrating Parameters of Cost Functionals,
ECCV00(II: 212-223).
WWW Version. 0003
BibRef

Milanese, R.,
Detecting Salient Regions in an Image: From Biology to Implementation,
Ph.D.Thesis, Univ. of Geneva, Switzerland, 1993. BibRef 9300

Rodriguez Sánchez, R., García, J.A., Fdez Valdivia, J., Fdez Vidal, X.R.,
Illusory Percepts Through a Constraint of Invariance in Integral Features Across Frequency Bands,
SCIA99(Pattern Recognition II). BibRef 9900

Walker, K.N., Cootes, T.F., Taylor, C.J.,
Locating Salient Facial Features Using Image Invariants,
AFGR98(242-247).
IEEE DOI Link BibRef 9800

Walker, K.N., Cootes, T.F., Taylor, C.J.,
Locating Salient Object Features,
BMVC98(xx-yy). BibRef 9800

Perona, P., Freeman, W.,
A Factorization Approach to Grouping,
ECCV98(I: 655-670).
WWW Version. BibRef 9800

Geiger, D.[Davi], Pao, H.K.[Hsing-Kuo], Rubin, N.,
Salient and Multiple Illusory Surfaces,
CVPR98(118-124).
IEEE Abstract. BibRef 9800

Alquier, L.[Laurent], and Montesinos, P.[Philippe],
Recursive Perceptual Grouping for 3D Object Reconstruction from 2D Scenes,
SCIA97(xx-yy)
HTML Version. 9705
BibRef

Schack, B., Krause, W.,
Instantaneous Coherence as a Sensible Parameter for Considering Human Information Processing,
ICPR96(II: 45-49).
IEEE DOI Link 9608
(Klinikum der Friedrich Schiller-Univ, D) BibRef

Chapter on Computational Vision, Regularization, Connectionist, Morphology, Scale-Space, Perceptual Grouping, Wavelets, Color, Sensors, Optical, Laser, Radar continues in
Perceptual Grouping, Saliency, General Systems .