Viviani P, Stucchi N
Department of Psychobiology, Université de Genève, Switzerland.
J Exp Psychol Hum Percept Perform. 1992 Aug;18(3):603-23. doi: 10.1037//0096-1523.18.3.603.
Six experiments demonstrate a visual dynamic illusion. Previous work has shown that in 2-dimensional (2D) drawing movements, tangential velocity and radius of curvature covary in a constrained manner. The velocity of point stimuli is perceived as uniform if and only if this biological constraint is satisfied. The illusion is conspicuous: The variations of velocity in the stimuli exceed 200%. Yet movements are perceived as uniform. Conversely, 2D stimuli moving at constant velocity are perceived as strongly nonuniform. The illusion is robust: Exposure to true constant velocity fails to suppress it. Results cannot be explained entirely by the kinetic depth effect. The illusion is evidence of a coupling between motor and perceptual processes: Even in the absence of any intention to perform a movement, certain properties of the motor system implicitly influence perceptual interpretation of the visual stimulus.
六个实验证明了一种视觉动态错觉。先前的研究表明,在二维(2D)绘图运动中,切向速度和曲率半径以一种受限的方式共同变化。当且仅当这种生物学约束得到满足时,点刺激的速度才会被感知为均匀的。这种错觉很明显:刺激中速度的变化超过200%。然而,运动却被感知为均匀的。相反,以恒定速度移动的二维刺激被感知为强烈的不均匀。这种错觉很稳健:暴露于真正的恒定速度并不能抑制它。结果不能完全用运动深度效应来解释。这种错觉证明了运动和感知过程之间的耦合:即使在没有任何执行运动意图的情况下,运动系统的某些属性也会隐含地影响对视觉刺激的感知解释。