Adaptation and the coding of visual objects by inferior temporal cortex

下颞叶皮层对视觉对象的适应和编码

• 批准号: 7579821
• 负责人: NICOLE C RUST
• 金额: $ 1.74万
• 依托单位: MASSACHUSETTS INSTITUTE OF TECHNOLOGY
• 依托单位国家: 美国
• 财政年份: 2007
• 资助国家: 美国
• 起止时间: 2007-03-15 至 2009-06-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/7579821
• 关键词: Anterior; Area; Brain; Cells; Classification; Code; Complex; Dimensions; Human; Image; Inferior; Location; Macaca; Molds; Neurons; Perception; Photic Stimulation; Play; Population; Process; Prosthesis; Recording of previous events; Retina; Role; Shapes; Specificity; Staging; Stimulus; Stream; System; Temporal Lobe; Time; Vision; Visual; Visual Perception; Visual system structure; extrastriate visual cortex; inferotemporal cortex; insight; long term memory; object recognition; receptive field; relating to nervous system; repaired; response; tool; visual coding; visual process; visual processing

DESCRIPTION (provided by applicant): The visual system has developed robust mechanisms to solve the complex computational problem of object recognition. The responses of neurons at the highest level of the macaque visual processing system, anterior inferotemporal cortex (AIT), are selective for complex objects and are critical for object identification. The responses of AIT neurons depend not only on the stimuli encountered in any given moment, but are also strongly influenced by the recent history of stimulation (adaptation). The overall aim of this proposal is a systematic understanding of factors that influence the adaptive state of AIT neurons and to determine the effects of adaptation on the coding of visual objects. Our inquiries into adaptation in AIT are two-fold. First, we propose to use adaptation as a tool to probe stimulus selectivity in AIT. At earlier stages of the visual system (such as V1 and MT), adaptation to prolonged visual stimulation results in shifted tuning functions and these shifts are correlated with shifts in perception. These adaptive shifts are thought to arise as a consequence of disrupting the circuitry that acts to mold tuning in these areas, and have provided insight into the mechanisms underlying stimulus selectivity. In AIT, adaptation is strong and is selective for shape. Our aim is to determine whether and how adaptation changes the stimulus selectivity of AIT neurons. Specifically, we propose to explore the effect of adaptation on a variety of AIT 'tuning' dimensions to gain insight into the mechanisms underlying these complex and little-understood receptive fields. Second, our aim is to understand how adaptation impacts the encoding of objects during natural vision. On the timescales of natural vision, adaptation in AIT is robust and shape-selective. This suggests that adaptation alters object coding across the AIT population. In particular, natural temporal image sequences are likely to produce strong adaptation effects and may thus provide important clues into the role of adaptation in object coding in the ventral visual stream. Understanding the neural coding of objects is critical to a deep understanding of human visual perception and long-term memory, and is needed to meaningfully repair the disruption of these brain processes or to create prosthetics that may stand in for such disruption.

描述（由申请人提供）：视觉系统已经开发出鲁棒的机制来解决对象识别的复杂计算问题。猕猴视觉处理系统的最高层前颞下皮层（AIT）神经元的反应对复杂物体具有选择性，对物体识别至关重要。AIT神经元的反应不仅取决于在任何给定时刻遇到的刺激，而且还受到最近刺激历史（适应）的强烈影响。该提案的总体目标是系统地了解影响AIT神经元适应状态的因素，并确定适应对视觉对象编码的影响。我们对美国在台协会适应性的研究有两个方面。首先，我们建议使用适应作为一种工具来探测刺激选择性AIT。在视觉系统的早期阶段（如V1和MT），对长时间视觉刺激的适应导致调谐功能的转变，这些转变与感知的转变相关。这些适应性转变被认为是由于破坏了在这些区域中塑造调谐的电路而产生的，并且为深入了解刺激选择性的潜在机制提供了线索。在AIT中，适应性很强，并且对形状有选择性。我们的目的是确定适应是否以及如何改变AIT神经元的刺激选择性。具体而言，我们建议探索适应各种AIT“调谐”尺寸的影响，以深入了解这些复杂和鲜为人知的感受野的机制。其次，我们的目标是了解适应如何影响自然视觉中的物体编码。在自然视觉的时间尺度上，AIT中的适应是鲁棒的和形状选择性的。这表明适应改变了AIT人群的对象编码。特别是，自然的时间图像序列可能会产生强烈的适应效果，从而可能提供重要的线索，适应的作用，在腹侧视觉流中的对象编码。理解物体的神经编码对于深入理解人类视觉感知和长期记忆至关重要，并且需要有意义地修复这些大脑过程的中断或创建可能代表这种中断的假肢。