基于预测错误的内动机扫视学习

Ihsan Ahmed, Wasif Muhammad, Ali Asghar, M. J. Irshad
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引用次数: 0

摘要

双眼同时朝同一方向快速运动被称为扫视,而基于视觉刺激形成眼睛运动控制的内部模型的过程被称为扫视学习。所有人都用这种眼动把突出的物体带到视网膜的中央凹位置,即使这些物体随机地位于周围环境中。一开始,婴儿不能进行这种类型的眼球运动,但感觉信息激励他们开始学习跳眼行为。本文提出了一种基于感官预测误差的内动机学习跳眼运动模型,该模型更符合跳眼学习的生物系统。使用分裂输入调制(PC/BC-DIM)网络的预测编码/偏见竞争用于使用感官预测误差的扫视学习。感官预测误差的量化提供了一种内在的奖励。一个模拟的类人智能体iCub被用来评估和量化所提出模型的性能。用于此目的的性能指标是百分比平均后跳距离和标准偏差。该模型的平均跳后距离小于1°,这在生物学上是合理的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Predication-Error-Based Intrinsically Motivated Saccade Learning
The quick, simultaneous movements of both eyes in the same direction is called a saccade, and the process of developing an internal model for the eyes’ movement-control based on visual stimuli is called saccade learning. All humans use this type of eye motion to bring salient objects to the foveal locations of the retina, even if the objects are located randomly in the surrounding environment. To begin with, infants are not able to perform this type of eye motion, but sensory information motivates them to start learning saccadic behavior. In this paper, a sensory prediction-error-based intrinsically motivated model is proposed for learning saccadic eye movements, and this approach is more consistent with biological systems for saccade learning. Predicted Coding/Biased Competition using Divisive Input Modulation (PC/BC-DIM) network is used for saccade learning using sensory prediction errors. The quantification of sensory prediction errors provides an intrinsic reward. A simulated humanoid agent, iCub, is used to assess and quantify the performance of the proposed model. The performance metrics used for this purpose are percentage mean post-saccadic distance and standard deviation. The mean post-saccadic distance for the proposed model was less than 1°, which is biologically plausible.
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