Codes for visual shape perception and the contribution of depth information

视觉形状感知的代码和深度信息的贡献

• 批准号: 203613-2008
• 负责人: Arguin, Martin
• 金额: $ 1.6万
• 依托单位: Université de Montréal
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2008
• 资助国家: 加拿大
• 起止时间: 2008-01-01 至 2009-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=392879
• 关键词: Codes; visual; shape; perception; contribution

Visual shape perception is fundamental for effective interactions with our environment and to recognize objects. This proposal is part of our ongoing long-term project of uncovering how the human visual system processes and represents shape information. Our previous studies have shown that two representation formats (or codes) are involved in the perception of simple shapes. One is based on global shape features such as aspect ratio, curvature, or symmetry. Another is based on the visible surfaces of the object that are delimited by its edges. Two main goals of this proposal concern these codes. Specifically, we wish to establish, for a variety of global shape properties, whether their representation is invariant to depth rotations and if so, what is the depth information required to support this invariance. Regarding the surface code, the proposed experiments will examine to what degree it is distinct from a representation of shape that exclusively rests on its edges, and whether it is invariant to rotations on the picture plane and in depth. A third main goal of this proposal is to explore the perception and representation of complex objects; i.e. those that can be segmented in two or more parts. Our previous investigation of complex objects has shown that their perception involves two separate mechanisms, one concerned with the shape of parts and another with their spatial arrangement, or configuration. We now propose to examine whether the representation of parts in complex objects uses the same global feature and surface codes we have demonstrated for simple objects. We will also examine the perception of the configuration of complex objects. Specifically, we will examine the properties of objects that make the perception of configuration more or less difficult as well as the factors that affect our capacity to discriminate objects on their configuration.

视觉形状感知是与我们的环境进行有效交互和识别物体的基础。这项提案是我们正在进行的长期项目的一部分，该项目旨在揭示人类视觉系统如何处理和表示形状信息。我们以前的研究表明，两种表征格式（或代码）参与了对简单形状的感知。一种是基于全局形状特征，如纵横比、曲率或对称性。另一种是基于由其边缘限定的对象的可见表面。这项建议的两个主要目标涉及这些守则。具体来说，我们希望建立，对于各种全球形状属性，他们的表示是否是不变的深度旋转，如果是这样，什么是深度信息需要支持这种不变性。关于表面代码，所提出的实验将检查它在多大程度上不同于完全依赖于其边缘的形状表示，以及它是否对图片平面和深度上的旋转不变。该提案的第三个主要目标是探索复杂对象的感知和表示;即那些可以分割成两个或更多部分的对象。我们以前对复杂物体的研究表明，它们的感知涉及两个独立的机制，一个与部件的形状有关，另一个与它们的空间排列或配置有关。我们现在建议检查复杂对象中的零件表示是否使用与简单对象相同的全局特征和表面代码。我们还将研究复杂物体的结构的感知。具体来说，我们将研究对象的属性，使感知配置或多或少的困难，以及影响我们的能力，以区分对象的配置的因素。