@incollection{Sakano:2007hc,
	abstract = {We investigated whether motion aftereffect (MAE) in depth can be induced by adaptation to apparent motion-in-depth based on binocular cues: changing disparity and interocular velocity differences. The adaptation stimulus was a random-dot stereogram (RDS) in which the absolute disparity alternated every frame between two values while the dot distribution changed randomly every second frame. Thus, the stimulus contained a coherent interocular velocity difference signal to adapt motion-in-depth and a balanced changing disparity signal that should not induce a MAE in depth. The test stimulus was a stationary random-dot stereogram depicting a fronto-parallel plane. MAE in depth occurred in the opposite direction to the coherent interocular velocity difference based adapting stimulus, supporting the idea that adaptation to interocular velocity differences produces MAE in depth.},
	address = {Tokyo, Japan},
	author = {Sakano, Y. and Allison, R.S.},
	booktitle = {The Journal of the Vision Society of Japan (Winter Annual Meeting 2007 of The Vision Society of Japan (VSJ))},
	date-added = {2011-05-06 16:39:56 -0400},
	date-modified = {2013-12-28 14:59:48 +0000},
	keywords = {Motion in depth},
	month = {Jan 31-Feb 2},
	organization = {Vision Society of Japan},
	title = {Adaptation to apparent motion-in-depth based on binocular cues},
	volume = {58},
	year = {2007}}

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