Compensating Neural Transmission Delays by Dynamical Routing
Neural delays are pervasive in the computations associated with brain functions. For adaptive behaviors, these delays must be compensated. The present study investigates a dynamical routing scheme which compensates the transmission delay of neural signals from retina to visual cortex. The scheme utilizes prior information of a moving stimulus and predicts the future position the stimulus will travel to after the delay period. We find that over a large range of speed, the routing scheme can compensate neural delays successfully.
Delay compensation Dynamical routing Neural computation Visual information processing
Si Wu Libo Ma
State Key Laboratory of Neurobiology, Chinese Academy of Sciences, Institute of Neuroscience,Shanghai Institutes of Biological Sciences, Shanghai 200031, China
国际会议
The Second International Conference on Cognitive Neurodynamics--2009(第二届国际认知神经动力学会议)
杭州
英文
429-434
2009-11-15(万方平台首次上网日期,不代表论文的发表时间)