Murakami, I. (in press). Motion transparent inducers have different effects on induced motion and motion capture. Vision Research, ??, ???-???. [abstract]
Murakami, I. (1998). A retinotopic representation of filling-in: further supporting evidence. Behavioral and Brain Sciences, 21, 765-766. [abstract]
Whitney, D. & Murakami, I. (1998). Latency difference, not spatial extrapolation. Nature Neuroscience, 1, 656-657.
Murakami, I. & Cavanagh, P. (1998). A jitter after-effect reveals motion-based stabilization of vision. Nature, 395, 798-801. [abstract] [DEMO]
Murakami, I. (1997). Motion transparency in superimposed dense random-dot patterns: psychophysics and simulation. Perception, 26, 679-692. [abstract]
Murakami, I., Komatsu, H. & Kinoshita, M. (1997). Perceptual filling-in at the artificial scotoma following a monocular retinal lesion in the monkey. Visual Neuroscience, 14, 89-101. [abstract]
Murakami, I. & Shimojo, S. (1996). Assimilation-type and contrast-type bias of motion induced by the surround in a random-dot display: evidence for center-surround antagonism. Vision Research, 36, 3629-3639. [abstract]
Komatsu, H., Murakami, I. & Kinoshita, M. (1996). Surface representation in the visual system. Cognitive Brain Research, 5, 97-104. [abstract]
Takeichi, H., Nakazawa, H., Murakami, I. & Shimojo, S. (1995). The theory of curvature constraint line for amodal completion. Perception, 24, 373-389. [abstract]
Murakami, I. & Shimojo, S. (1995). Modulation of motion aftereffect by surround motion and its dependence on eccentricity and stimulus size. Vision Research, 35, 1835-1844. [abstract]
Murakami, I. (1995). Motion aftereffect after monocular adaptation to filled-in motion at the blind spot. Vision Research, 35, 1041-1045. [abstract]
Komatsu, H. & Murakami, I. (1994). Behavioral evidence of filling-in at the blind spot of the monkey. Visual Neuroscience, 11, 1103-1113. [abstract]
Murakami, I. & Shimojo, S. (1993). Motion capture changes to induced motion at higher luminance contrasts, smaller eccentricities, and larger inducer sizes. Vision Research, 33, 2091-2107. [abstract]