4.8.3.2 Optical Illusions

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

Ozawa, K.[Kazumasa],
Simulation of the optical illusions using a spatial filter,
PR(10), No. 4, 1978, pp. 237-242.
Elsevier DOI 0309
4 kinds of illusions. BibRef

Ozawa, K.[Kazumasa],
Simulation studies on optical illusions based on a position-dependent point spread function,
PR(23), No. 12, 1990, pp. 1361-1366.
Elsevier DOI 0401
Hering's illusion. BibRef

Fermüller, C.[Cornelia], Aloimonos, Y.[Yiannis],
Statistics Explains Geometrical Optical Illusions,
FIU01(Chapter 14). BibRef 0100
And: Add A2: Malm, H.[Henrik], UMD--TR4251, May 2001.
WWW Link. Optical illusions, e.g. patterns due to motion signals in line drawings, due to statistics of visual computations. BibRef

Petrov, Y.A.[Yury A.], Popple, A.V.[Ariella V.],
Effects of negative afterimages in visual illusions,
JOSA-A(19), No. 6, June 2002, pp. 1107-1111.
WWW Link. 0206
BibRef

Zhu, W.[Wei], Chan, T.[Tony],
A Variational Model for Capturing Illusory Contours Using Curvature,
JMIV(27), No. 1, January 2007, pp. 29-40.
Springer DOI 0702
BibRef

Jung, Y.M.[Yoon Mo], Shen, J.H.J.[Jian-Hong Jackie],
First-order modeling and stability analysis of illusory contours,
JVCIR(19), No. 1, January 2008, pp. 42-55.
Elsevier DOI 0711
Illusion, Illusory contours, Energy model, Local stability, Contour decomposition, Real and imaginary, Kinks, Spans, Turns, Level-set method, Supervision BibRef

Dixon, E.[Erica], Shapiro, A.G.[Arthur G.],
Paradoxical effect of spatially homogenous transparent fields on simultaneous contrast illusions,
JOSA-A(31), No. 4, April 2014, pp. A307-A313.
DOI Link 1404
Color vision, Perception psychology, Psychophysics, Spatial filtering BibRef

Rose-Henig, A.[Alex], Shapiro, A.G.[Arthur G.],
Contrast-contrast asynchronies,
JOSA-A(31), No. 4, April 2014, pp. A232-A238.
DOI Link 1404
Color vision BibRef

Jung, Y.M.[Yoon Mo], Shen, J.H.J.[Jian-Hong Jackie],
Illusory Shapes via First-Order Phase Transition and Approximation,
JMIV(53), No. 3, November 2015, pp. 303-313.
Springer DOI 1511
BibRef

Choudhury, L.[Lopamudra], Aditya, S.[Subhrangsu], Chaudhuri, B.B.[Bidyut Baran],
Effect of combining Muller-Lyer and horizontal vertical illusions,
IJCVR(1), No. 1, 2009, pp. 59-70.
DOI Link 0911
Optical illusions. Implement and test theory of illusion. 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 Link. 1112
BibRef

Chi, M.T.[Ming-Te], Yao, C.Y.[Chih-Yuan], Zhang, E.[Eugene], Lee, T.Y.[Tong-Yee],
Optical illusion shape texturing using repeated asymmetric patterns,
VC(30), No. 6-8, June 2014, pp. 809-819.
WWW Link. 1407
BibRef
And: Erratum: VC(31), No. 11, November 2015, pp. 1565-1566.
WWW Link. 1512
BibRef

Franceschiello, B., Sarti, A., Citti, G.,
A Neuromathematical Model for Geometrical Optical Illusions,
JMIV(60), No. 1, January 2018, pp. 94-108.
Springer DOI 1801
BibRef

Gomez-Villa, A.[Alexandra], Wang, K.[Kai], Parraga, C.A.[C. Alejandro], Twardowski, B.[Bartlomiej], Malo, J.[Jesus], Vazquez-Corral, J.[Javier], van de Weijer, J.[Joost],
The Art of Deception: Color Visual Illusions and Diffusion Models,
CVPR25(18642-18652)
IEEE DOI 2508
Visualization, Image color analysis, Text to image, Artificial neural networks, Observers, Diffusion models, human visual perception BibRef

Chen, P.[Ping], Zhang, X.P.[Xing-Peng], Liu, Z.X.[Zhao-Xiang], Hu, H.[Huan], Liu, X.[Xiang], Wang, K.[Kai], Wang, M.[Min], Qian, Y.L.[Yan-Lin], Lian, S.[Shiguo],
Optimizing for the Shortest Path in Denoising Diffusion Model,
CVPR25(18021-18030)
IEEE DOI Code:
WWW Link. 2508
Visualization, Solid modeling, Noise reduction, Diffusion processes, Benchmark testing, Diffusion models, Solids, residual BibRef

Kim, H.[Hyunsoo], Kim, D.H.[Dong-Hyun], Kim, S.[Suhyun],
Difference Inversion: Interpolate and Isolate the Difference with Token Consistency for Image Analogy Generation,
CVPR25(18250-18259)
IEEE DOI 2508
Training, Visualization, Interpolation, Accuracy, diffusion model, image analogy, image editing BibRef

Gao, X.[Xiang], Yang, S.[Shuai], Liu, J.Y.[Jia-Ying],
PTDiffusion: Free Lunch for Generating Optical Illusion Hidden Pictures with Phase-Transferred Diffusion Model,
CVPR25(18240-18249)
IEEE DOI 2508
Training, Visualization, Translation, Art, Semantics, Web pages, Text to image, Diffusion models, Optical imaging BibRef

Roy, A.[Aniket], Roy, A.[Anirban], Mitra, S.[Soma], Ghosh, K.[Kuntal],
Bri3L: a Brightness Illusion Image Dataset for Identification and Localization of Regions of Illusory Perception,
ICIP24(62-68)
IEEE DOI Code:
WWW Link. 2411
Location awareness, Deep learning, Visualization, Image segmentation, Accuracy, Brightness, Benchmark testing, perception BibRef

Geng, D.[Daniel], Park, I.[Inbum], Owens, A.[Andrew],
Visual Anagrams: Generating Multi-View Optical Illusions with Diffusion Models,
CVPR24(24154-24163)
IEEE DOI Code:
WWW Link. 2410
Visualization, Noise, Text to image, Diffusion processes, Optical imaging, Diffusion models, Diffusion Models, Optical Illusions BibRef

Yang, F.[Fang], Bruckstein, A.M.[Alfred M.], Cohen, L.D.[Laurent D.],
PointFlow: A Model for Automatically Tracing Object Boundaries and Inferring Illusory Contours,
EMMCVPR17(485-498).
Springer DOI 1805
BibRef

Miyazaki, D.[Daisuke], Saneshige, T.[Takafumi], Baba, M.[Masashi], Furukawa, R.[Ryo], Aoyama, M.[Masahito], Hiura, S.[Shinsaku],
Metamerism-based shading illusion,
MVA15(255-258)
IEEE DOI 1507
Art. Same color under one light, different color under another. BibRef

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

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

Skrzypek, J., Ringer, B.,
Neural network models for illusory contour perception,
CVPR92(681-683).
IEEE DOI 0403
BibRef

Chapter on Computational Vision, Regularization, Connectionist, Morphology, Scale-Space, Perceptual Grouping, Wavelets, Color, Sensors, Optical, Laser, Radar continues in
Grouping, Figure-Ground, Background, Foreground .