Title :
Reaction-diffusion CNN algorithms to generate and control artificial locomotion
Author :
Arena, Paolo ; Fortuna, Luigi ; Branciforte, Marco
Author_Institution :
Dipt. Electrico, Elettronico e Sistemistico, Univ. degli Studi di Catania, Italy
fDate :
2/1/1999 12:00:00 AM
Abstract :
In this paper a physiological-behavioral approach to neural processing is used to realize artificial locomotion in mechatronic devices. The task has been realized by using a particular model of reaction-diffusion cellular neural networks (RD-CNN´s) generating autowave fronts as well as Turing patterns. Moreover a programmable hardware cellular neural network structure is presented in order to model, generate, and control in real time some biorobots. The programmable hardware implementation gives the possibility of generating locomotion in real time and also to control the transition among several types of locomotion, with particular attention to hexapodes. The approach proposed allows not only the design of walking robots, but also the ability to build structures able to efficiently solve typical problems in industrial automation, such as online routing of objects moved on conveyor belts
Keywords :
cellular neural nets; legged locomotion; mechatronics; reaction-diffusion systems; Turing pattern; artificial locomotion; autowave front; biorobot; cellular neural network; central pattern generator; conveyor belt; hexapode; industrial automation; mechatronic device; neural processing; physiological-behavioral model; programmable hardware; reaction-diffusion CNN algorithm; real-time control; walking robot; Automatic generation control; Belts; Cellular neural networks; Design automation; Legged locomotion; Mechatronics; Neural network hardware; Robotics and automation; Routing; Service robots;
Journal_Title :
Circuits and Systems I: Fundamental Theory and Applications, IEEE Transactions on
