The role of lateral inhibition in the sensory processing in a simulated spiking neural controller for a robot

Author

Bowes, David ; Adams, Rod ; Cañamero, Lola ; Steuber, Volker ; Davey, Neil

Author_Institution

Sci. & Technol. Res. Inst., Univ. of Hertfordshire, Hatfield

fYear

2009

fDate

March 3 2009-April 2 2009

Firstpage

179

Lastpage

183

Abstract

Visual adaptation is the process that allows animals to be able to see over a wide range of light levels. This is achieved partially by lateral inhibition in the retina which compensates for low/high light levels. Neural controllers which cause robots to turn away from or towards light tend to work in a limited range of light conditions. In real environments, the light conditions can vary greatly reducing the effectiveness of the robot. Our solution for a simple Braitenberg vehicle is to add a single inhibitory neuron which laterally inhibits the output to the robot motors. This solution has additionally reduced the computational complexity of our simple neuron allowing for a greater number of neurons to be simulated with a fixed set of resources.

Keywords

neurocontrollers; robots; Braitenberg vehicle; computational complexity; lateral inhibition; light conditions; robot motors; sensory processing; simulated spiking neural controller; visual adaptation; Cells (biology); Chemical sensors; Educational institutions; Fires; Lighting control; Neurons; Retina; Robot control; Robot sensing systems; Vehicles;

fLanguage

English

Publisher

ieee

Conference_Titel

Artificial Life, 2009. ALife '09. IEEE Symposium on

Conference_Location

Nashville, TN

Print_ISBN

978-1-4244-2763-5

Type

conf

DOI

10.1109/ALIFE.2009.4937710

Filename

4937710