目标运动错误判断反映了对背景的错误认知;利用连续心理物理学揭示了这一点

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-11-01 DOI:10.1177/20416695231214439
Michael Falconbridge, Robert L. Stamps, Mark Edwards, David R. Badcock
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引用次数: 0

摘要

当我们在复杂的环境中导航时,由于我们自身的运动会给视觉场景增加系统性的运动信号,因此确定目标物体的速度变得更加困难。流动解析假说认为,在这种情况下,视觉系统会从视觉场景中减去背景运动,从而确定目标相对于场景的运动。在这里,我们要解决的问题是,为什么在实验室环境中背景只被部分减去。同时,我们还探究了在流动解析研究中被忽视的场景感知方面,即对背景本身的感知。在此,我们展示了三名经验丰富的心理物理学参与者和一名经验不足的参与者参加三次连续心理物理学实验的结果。我们的研究表明,当背景光流模式由局部元素组成,而这些局部元素的运动与整体光流模式一致时,背景减法的不完整性完全可以通过对背景的错误感知来解释。当组成背景的局部速度围绕着全局平均速度随机分散时,就需要一个额外的因素来解释减法的不完整性。我们的研究表明,背景感知是大脑试图通过自我运动来推断场景运动的结果,这一模型可以解释这些结果。
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Target motion misjudgments reflect a misperception of the background; revealed using continuous psychophysics
Determining the velocities of target objects as we navigate complex environments is made more difficult by the fact that our own motion adds systematic motion signals to the visual scene. The flow-parsing hypothesis asserts that the background motion is subtracted from visual scenes in such cases as a way for the visual system to determine target motions relative to the scene. Here, we address the question of why backgrounds are only partially subtracted in lab settings. At the same time, we probe a much-neglected aspect of scene perception in flow-parsing studies, that is, the perception of the background itself. Here, we present results from three experienced psychophysical participants and one inexperienced participant who took part in three continuous psychophysics experiments. We show that, when the background optic flow pattern is composed of local elements whose motions are congruent with the global optic flow pattern, the incompleteness of the background subtraction can be entirely accounted for by a misperception of the background. When the local velocities comprising the background are randomly dispersed around the average global velocity, an additional factor is needed to explain the subtraction incompleteness. We show that a model where background perception is a result of the brain attempting to infer scene motion due to self-motion can account for these results.
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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