F. Heitger scite author profile

Abstract-Prolonged inspection of high contrast sinewave gratings increases the contrast required to detect gratings having a similar spatial frequency and orientation. The functional role of such adaptation has, however, in the past, eluded disclosure. We here show that 5 min adaptation to a 2 cjdeg sinewave grating of 0.8 contrast changes the observer's ability to discriminate the contrast level of a subsequently presented grating of the same spatial frequency and orientation. Similar to the threshold elevation effect, the observers required more incremental contrast for background contrast levels between 0.1 and 0.4 following adaptation. However, for contrast levels above 0.5, the observers required less delta contrast, following adaptation, to correctly discriminate which of two gratings was incremented in contrast. A simple model for adaptation is proposed to account for the findings which is based on a shift in the semi-saturation constant of the detector's contrast-response function. According to this model, adaptation acts to linearize the underlying mechanism's response in the region near the prevailing contrast level.

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A computational model of neural contour processing: figure-ground segregation and illusory contours

Heitger

Heydt

Kübler

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A computational model of neural contour processing: Figure-ground segregation and illusory contours

Heitger

Heydt²

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F. Heitger

Simulation of neural contour mechanisms: from simple to end-stopped cells

Simulation of neural contour mechanisms: representing anomalous contours

The functional role of contrast adaptation

A computational model of neural contour processing: figure-ground segregation and illusory contours

A computational model of neural contour processing: Figure-ground segregation and illusory contours

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