1. bookVolume 39 (2017): Edizione 1 (March 2017)
Dettagli della rivista
License
Formato
Rivista
eISSN
2519-5808
Prima pubblicazione
12 Apr 2017
Frequenza di pubblicazione
3 volte all'anno
Lingue
Inglese, Tedesco
Accesso libero

“Invariants” in Koffka’s Theory of Constancies in Vision: Highlighting Their Logical Structure and Lasting Value

Pubblicato online: 31 Mar 2017
Volume & Edizione: Volume 39 (2017) - Edizione 1 (March 2017)
Pagine: 6 - 29
Dettagli della rivista
License
Formato
Rivista
eISSN
2519-5808
Prima pubblicazione
12 Apr 2017
Frequenza di pubblicazione
3 volte all'anno
Lingue
Inglese, Tedesco

Beck, J., Prazdny, K., & Ivry, R. (1984). The perception of transparency with achromatic colors. Perception & Psychophysics, 35(5), 407–422.10.3758/BF032039176462867Search in Google Scholar

Bergström, S. S. (1977). Common and relative components of reflected light as information about the illumination, colour, and three-dimensional form of objects. Scandinavian Journal of Psychology, 18(3), 180–186.10.1111/j.1467-9450.1977.tb00275.x897594Search in Google Scholar

Bloj, M. G., & Hurlbert, A. C. (2002). An empirical study of the traditional Mach card effect. Perception, 31(2), 233–246.10.1068/p01sp11922135Search in Google Scholar

Chen, L. (2005). The topological approach to perceptual organization. Visual Cognition, 12(4), 553–637.10.1080/13506280444000256Search in Google Scholar

Cutting, J. E. (1986). Perception with an eye for motion. Cambridge, MA: MIT Press.Search in Google Scholar

Cutting, J. E., & Vishton, P. M. (1995). Perceiving layout and knowing distances: The integration, relative potency, and contextual use of different information about depth. In W. Epstein & S. Rogers (Eds.), Perception of space and motion (pp. 69–117). New York, NY: Academic Press.Search in Google Scholar

Da Pos, O., & Burigana, L. (2013). Qualitative inference rules for perceptual transparency. In L. Albertazzi (Ed.), Handbook of experimental phenomenology: Visual perception of shape, space and appearance (pp. 343–367). New York, NY: Wiley.Search in Google Scholar

Dechter, R. (2003). Constraint processing. San Mateo, CA: Morgan Kaufmann.Search in Google Scholar

Epstein, W. (1982). Percept-percept couplings. Perception, 11(1), 75–83.10.1068/p1100756752865Search in Google Scholar

Gibson, J. J. (1979). The ecological approach to visual perception. Boston, MA: Houghton Mifflin.Search in Google Scholar

Gilchrist, A. L. (2006). Seeing black and white. Oxford, UK: Oxford University Press.10.1093/acprof:oso/9780195187168.001.0001Search in Google Scholar

Gilchrist, A. L., Kossyfidis, C., Bonato, F., Agostini, T., Cataliotti, J., Li, X., Spehar, B., Annan, V., & Economou, E. (1999). An anchoring theory of lightness perception. Psychological Review, 106(4), 795–834.10.1037/0033-295X.106.4.79510560329Search in Google Scholar

Gogel, W. C. (1973). The organization of perceived space. I. Perceptual interactions. Psychologische Forschung, 36(3), 195–221.10.1007/BF004244764768288Search in Google Scholar

Gogel, W. C. (1976). An indirect method of measuring perceived distance from familiar size. Perception & Psychophysics, 20(6), 419–429.10.3758/BF03208276Search in Google Scholar

Hatfield, G. C. (2003). Representation and constraints: The inverse problem and the structure of visual space. Acta Psychologica, 114(3), 355–378.10.1016/j.actpsy.2003.07.00314670704Search in Google Scholar

Heidelberger, M. (2010). Functional relations and causality in Fechner and Mach. Philosophical Psychology, 23(2), 163–172.10.1080/09515081003727400Search in Google Scholar

Hochberg, J. E. (1957). Effects of the Gestalt revolution: The Cornell symposium on perception. Psychological Review, 64(2), 73–84.10.1037/h004373813420281Search in Google Scholar

Jäkel, F., Singh, M., Wichmann, F. A., & Herzog, M. H. (2016). An overview of quantitative approaches in Gestalt perception. Vision Research, 126, 3–8.10.1016/j.visres.2016.06.00427353224Search in Google Scholar

Johansson, G. (1970). On theories for visual space perception. A letter to Gibson. Scandinavian Journal of Psychology, 11(2), 67–74.10.1111/j.1467-9450.1970.tb00719.x5525904Search in Google Scholar

Kersten, D., Mamassian, P., & Yuille, A. L. (2004). Object perception as Bayesian inference. Annual Review of Psychology, 55, 271–304.10.1146/annurev.psych.55.090902.14200514744217Search in Google Scholar

Koenderink, J. J., van Doorn, A. J., Pont, S., & Richards, W. (2008). Gestalt and phenomenal transparency. Journal of the Optical Society of America, Series A, 25(1), 190–202.10.1364/JOSAA.25.000190Search in Google Scholar

Koffka, K. (1935). Principles of Gestalt psychology. New York, NY: Harcourt, Brace and Company.Search in Google Scholar

Kogo, N., Strecha, C., van Gool, L., & Wagemans, J. (2010). Surface construction by a 2-D differentiation-integration process: A neurocomputational model for perceived border ownership, depth, and lightness in Kanizsa figures. Psychological Review, 117(2), 406–439.10.1037/a001907620438232Search in Google Scholar

Köhler, W. (1913). Über unbemerkte Empfindungen und Urteilstäuschungen. Zeitschrift für Psychologie, 66(Hefte 1 und 2), 51–80.Search in Google Scholar

Marr, D. (1982). Vision. A computational investigation into the human representation and processing of visual information. San Francisco, CA: Freeman.Search in Google Scholar

Metelli, F. (1970). An algebraic development of the theory of perceptual transparency. Ergonomics, 13(1), 59–66.10.1080/001401370089311185416869Search in Google Scholar

Neapolitan, R. E. (2004). Learning Bayesian networks. Upper Saddle River, NJ: Pearson Prentice Hall.Search in Google Scholar

Oyama, T. (1969). S-S relations in psychophysics and R-R correlations in phenomenology. Psychologia, 12(1), 17–23.Search in Google Scholar

Poggio, T., Torre, V., & Koch, C. (1985). Computational vision and regularization theory. Nature, 317(No. 6035), 314–319.10.1038/317314a02413361Search in Google Scholar

Rock, I. (1983). The logic of perception. Cambridge, MA: MIT Press.Search in Google Scholar

Rock, I. (1997). Indirect perception. Cambridge, MA: MIT Press.10.7551/mitpress/3727.001.0001Search in Google Scholar

Sarris, V. (2006). Relational psychophysics in humans and animals: A comparative developmental approach. London, UK: Psychology Press.Search in Google Scholar

Sarris, V. (2012). Epilogue: Max Wertheimer in Frankfurt and thereafter. In L. Spillmann (Ed.), On perceived motion and figural organization (pp. 253–265). Cambridge, MA: MIT Press.Search in Google Scholar

Savardi, U., & Bianchi, I. (2012). Coupling Epstein’s and Bozzi’s “percept-percept coupling”. Gestalt Theory, 34(2), 191–200.Search in Google Scholar

Sinico, M. (2013). Epistemic line of explanation for experimental phenomenology. Gestalt Theory, 35(4), 365–376.Search in Google Scholar

Spillmann, L. (2012). The current status of Gestalt rules in perceptual research: Psychophysics and neurophysiology. In L. Spillmann (Ed.), On perceived motion and figural organization (pp. 191–251). Cambridge, MA: MIT Press.Search in Google Scholar

Todd, J. T., Chen, L., & Norman, J. F. (1998). On the relative salience of Euclidean, affine, and topological structure for 3-D form discrimination. Perception, 27(3), 273–282.10.1068/p2702739775311Search in Google Scholar

Trommershäuser, J., Körding, K. P., & Landy, M. S. (Eds.). (2011). Sensory cue integration. Oxford, UK: Oxford University Press.10.1093/acprof:oso/9780195387247.001.0001Search in Google Scholar

Wagemans, J., Elder, J. H., Kubovy, M., Palmer, S. E., Peterson, M. A., Singh, M., & von der Heydt, R. (2012a). A century of Gestalt psychology in visual perception: I. Perceptual grouping and figure-ground organization. Psychological Bulletin, 138(6), 1172–1217.10.1037/a0029333348214422845751Search in Google Scholar

Wagemans, J., Feldman, J., Gepshtein, S., Kimchi, R., Pomerantz, J. R., van der Helm, P. A., & van Leeuwen, C. (2012b). A century of Gestalt psychology in visual perception: II. Conceptual and theoretical foundations. Psychological Bulletin, 138(6), 1218–1252.10.1037/a0029334372828422845750Search in Google Scholar

Articoli consigliati da Trend MD

Pianifica la tua conferenza remota con Sciendo