Neural Information Processing

Timetable Colour Vision & Material Perception (MSc) 2018

Week Date Paper Presenter
1 17.04.2018 Introduction
2

24.04.2018

no seminar

3

01.05.2018

no seminar

4

08.05.2018

Krauskopf J, Williams DR & Heeley DW (1982). Cardinal directions of color space. Vision Research, 22:1123–1131. Derrington AM, Krauskopf J & Lennie P (1984). Chromatic mechanisms in lateral geniculate nucleus of macaque. Journal of Physiology, 357:241–265.

Daniela Piechnik (Derrington et al)

5

15.05.2018

Arend LE & Reeves A (1986). Simultaneous color constancy. Journal of the Optical Society of America A, 3, 1743–1751. Maloney LT & Wandell BA (1986). Color constancy: a method for recovering surface spectral reflectance. Journal of the Optical Society of America A, 3, 29–33.

Heike Bocht (Maloney & Wandell)

6

22.05.2018

Pfingsten
7

29.05.2018

Kraft, J. M., & Brainard, D. H. (1999). Mechanisms of color constancy under nearly natural viewing. Proceedings of the National Academy of Sciences, 96(1), 307–312. Delahunt, P. B., & Brainard, D. H. (2004). Does human color constancy incorporate the statistical regularity of natural daylight? Journal of Vision, 4(2), 1.

Tobias Kaulich (Kraft & Brainard)

8

05.06.2018

Maloney, L. T., Gerhard, H. E., Boyaci, H., & Doerschner, K. (2010). Surface color perception and light field estimation in 3D scenes. In L. R. Harris & M. R. M. Jenkin (Eds.), Vision in 3D environments (pp. 280–307). Cambridge University Press. Boyaci, H., Doerschner, K., & Maloney, L. T. (2004). Perceived surface color in binocularly viewed scenes with two light sources differing in chromaticity. Journal of Vision, 4(9), 1–1. doi.org/10.1167/4.9.1

Andreas Specker (Boyaci et al)

9

12.06.2018

Wallisch, P. (2017). Illumination assumptions account for individual differences in the perceptual interpretation of a profoundly ambiguous stimulus in the color domain: “The dress.” Journal of Vision, 17(4), 5. Witzel, C., Racey, C., & O’Regan, J. K. (2017). The most reasonable explanation of “the dress”: Implicit assumptions about illumination. Journal of Vision, 17(2), 1. doi.org/10.1167/17.2.1 doi.org/10.1167/17.4.5

Nathalle-sina Minuth (Witzel et al)

10

19.06.2018

Fleming, R. W. (2017). Material Perception. Annual Review of Vision Science, 3, 365–388.

Tom Eckardt

11

26.06.2018

Fleming, R. W., Wiebel, C., & Gegenfurtner, K. (2013). Perceptual qualities and material classes. Journal of Vision, 13(8), 9–9. doi.org/10.1167/13.8.9. Sharan, L., Rosenholtz, R., & Adelson, E. H. (2014). Accuracy and speed of material categorization in real-world images. Journal of Vision, 14(9), 12–12. doi.org/10.1167/14.9.12

Chloe Nolingberg (Fleming et al)

12

03.07.2018

Motoyoshi, I., Nishida, S., Sharan, L., & Adelson, E. H. (2007). Image statistics and the perception of surface qualities. Nature, 447(7141), 206–209. doi.org/10.1038/nature05724. Anderson, B. L., & Kim, J. (2009). Image statistics do not explain the perception of gloss and lightness. Journal of Vision, 9(11), 10–10. doi.org/10.1167/9.11.10

No speaker assigned.

13

10.07.2018

Marlow, P. J., Kim, J., & Anderson, B. L. (2012). The perception and misperception of specular surface reflectance. Current Biology, 22(20), 1909–13. doi.org/10.1016/j.cub.2012.08.009, Ho, Y.-X., Landy, M. S., & Maloney, L. T. (2008). Conjoint measurement of gloss and surface texture. Psychological Science, 19(2), 196–204.

Daniel Konzalla (Marlow et al)

14

17.07.2018

van Assen, J. J. R., Barla, P., & Fleming, R. W. (2018). Visual Features in the Perception of Liquids. Current Biology, 28(3), 452–458.e4. doi.org/10.1016/j.cub.2017.12.037. Schmid, A. C., & Doerschner, K. (2018). Shatter and splatter: The contribution of mechanical and optical properties to the perception of soft and hard breaking materials. Journal of Vision, 18(1), 14. doi.org/10.1167/18.1.14

Andreas Schmidt (van Assen et al)