Construction of the rat brain spatial cell firing model on a quadruped robot

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摘要 Physiological studies have shown that rats in a dark environment rely on the limbs and vestibule for their self-motion information,which can maintain the specific firing patterns of grid cells and hippocampal CA3 place cells.In the development stage of rats,grid cells are considered to come from place cells,and place cells can be encoded by hippocampal theta cells.Based on these,the quadruped robot is used as a platform in this paper.Firstly,the sensing information of the robot's limbs and inertial measurement unit is obtained to solve its position in the environment.Then the position information is encoded by theta cells and mapped to place cells through a neural network.After obtaining the place cells with singlepeak firing fields,Hebb learning is used to adjust the connection weight of the neural network between place cells and grid cells.In order to verify the model,3-D simulation experiments are designed in this paper.The experiment results show that with the robot exploring in space,the spatial cells firing effects obtained by the model are consistent with the physiological research facts,which lay the foundation for the bionic environmental cognition model.

作者 Naigong Yu Yishen Liao Hejie Yu Ouattara Sie

机构地区 Faculty of Information Technology Beijing Key Laboratory of Computational Intelligence and Intelligent System Engineering Research Center of Digital Community College of Robotic

出处《CAAI Transactions on Intelligence Technology》 SCIE EI 2022年第4期732-743,共12页 智能技术学报（英文）

基金 National Natural Science Foundation of China,Grant/Award Numbers:61773027,62076014 Natural Science Foundation of Beijing Municipality,Grant/Award Number:4162012。

关键词 ROBOT NEURAL FIRING

分类号 TP2 [自动化与计算机技术—检测技术与自动化装置]

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Construction of the rat brain spatial cell firing model on a quadruped robot

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