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Items: 1 to 20 of 110

1.

Trichromatic reconstruction from the interleaved cone mosaic: Bayesian model and the color appearance of small spots.

Brainard DH, Williams DR, Hofer H.

J Vis. 2008 May 29;8(5):15.1-23. doi: 10.1167/8.5.15.

2.

Associating color appearance with the cone chromaticity space.

Cao D, Pokorny J, Smith VC.

Vision Res. 2005 Jul;45(15):1929-34.

3.

Cone selectivity derived from the responses of the retinal cone mosaic to natural scenes.

Wachtler T, Doi E, Lee T, Sejnowski TJ.

J Vis. 2007 Jun 18;7(8):6.

4.

The perception of speed based on L-M and S-(L+M) cone opponent processing.

McKeefry DJ, Burton MP.

Vision Res. 2009 Mar;49(8):870-6. doi: 10.1016/j.visres.2009.03.004. Epub 2009 Mar 11.

5.
6.

Spatially coherent colour image reconstruction from a trichromatic mosaic with random arrangement of chromatic samples.

Alleysson D.

Ophthalmic Physiol Opt. 2010 Sep;30(5):492-502. doi: 10.1111/j.1475-1313.2010.00771.x.

PMID:
20883332
7.

Chromatic detection and discrimination in the periphery: a postreceptoral loss of color sensitivity.

Newton JR, Eskew RT Jr.

Vis Neurosci. 2003 Sep-Oct;20(5):511-21.

PMID:
14977330
8.

Different hue coding underlying figure segregation and region detection tasks.

Nagai T, Uchikawa K.

J Vis. 2009 Aug 28;9(9):14.1-19. doi: 10.1167/9.9.14.

PMID:
19761347
9.

Latency characteristics of the short-wavelength-sensitive cones and their associated pathways.

Lee RJ, Mollon JD, Zaidi Q, Smithson HE.

J Vis. 2009 Nov 12;9(12):5.1-17. doi: 10.1167/9.12.5.

10.

Chromatic induction from S-cone patterns.

Monnier P, Shevell SK.

Vision Res. 2004 Apr;44(9):849-56.

11.

Colour detection thresholds as a function of chromatic adaptation and light level.

Jennings BJ, Barbur JL.

Ophthalmic Physiol Opt. 2010 Sep;30(5):560-7. doi: 10.1111/j.1475-1313.2010.00773.x.

PMID:
20883340
12.

Chromatic discrimination with variation in chromaticity and luminance: data and theory.

Yeh T, Pokorny J, Smith VC.

Vision Res. 1993 Sep;33(13):1835-45.

PMID:
8266639
13.

Induction from a below-threshold chromatic pattern.

Monnier P, Shevell SK.

J Vis. 2008 Sep 23;8(12):7.1-7. doi: 10.1167/8.12.7.

14.

Color perception in the intermediate periphery of the visual field.

Hansen T, Pracejus L, Gegenfurtner KR.

J Vis. 2009 Apr 30;9(4):26.1-12. doi: 10.1167/9.4.26.

PMID:
19757935
15.

Hue scaling of isoluminant and cone-specific lights.

De Valois RL, De Valois KK, Switkes E, Mahon L.

Vision Res. 1997 Apr;37(7):885-97.

16.

Foveal spatial summation in human cone mechanism.

O'Donell BM, Colombo EM.

Perception. 2011;40(1):50-62.

PMID:
21513184
17.

Standard definitions of chromatic induction fail to describe induction with S-cone patterned backgrounds.

Monnier P.

Vision Res. 2008 Dec;48(27):2708-14. doi: 10.1016/j.visres.2008.09.011. Epub 2008 Oct 19.

18.

Flicker ERG responses to stimuli parametrically modulated in color space.

Brainard DH, Calderone JB, Nugent AK, Jacobs GH.

Invest Ophthalmol Vis Sci. 1999 Nov;40(12):2840-7.

PMID:
10549644
19.

The arrangement of the three cone classes in the living human eye.

Roorda A, Williams DR.

Nature. 1999 Feb 11;397(6719):520-2.

PMID:
10028967
20.

Cone-specific mediation of rod sensitivity in trichromatic observers.

Shapiro AG.

Invest Ophthalmol Vis Sci. 2002 Mar;43(3):898-905.

PMID:
11867613

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