Visual feedback by using a CNN chip prototype system

Author

Arena, Paolo ; Basile, Adriano ; Fortuna, Luigi ; Virzi, A.

Author_Institution

Dipt. Elettrico Elettronico e Sistemistico, Catania Univ., Italy

fYear

2002

fDate

22-24 Jul 2002

Firstpage

291

Lastpage

298

Abstract

Robot locomotion control passes through a series of sensors that, according to information from the environment, allow the robot to adapt, in real time, its locomotion scheme or trajectory. When the goal of the robot is to reach a target in a non-structured environment the best approach is visual control realized by a fast image processing system. Fast parallel image processing of the CNN-UM cP4000 chip prototype permits one to obtain good performance, even in a real time control problem. The robot controlled by the implemented CNN visual feedback has a hexapod configuration and its locomotion system is also implemented by a multi-layer CNN structure. In this paper a CNN approach for both locomotion generation and visual control of the bio-inspired robot is presented.

Keywords

cellular neural nets; image sensors; legged locomotion; motion control; neural chips; optical feedback; real-time systems; robot vision; Cellular Neural Network Universal Chip cP4000 chip prototype; bio-inspired robot; fast parallel image processing; hexapod configuration; multilayer cellular neural net structure; nonstructured environment; real time adaptation; real time control problem; robot locomotion control; sensors; trajectory; visual control; visual feedback; Cameras; Cellular neural networks; Control systems; Feedback; Filtering; Image processing; Pixel; Prototypes; Robot kinematics; Working environment noise;

fLanguage

English

Publisher

ieee

Conference_Titel

Cellular Neural Networks and Their Applications, 2002. (CNNA 2002). Proceedings of the 2002 7th IEEE International Workshop on

Print_ISBN

981-238-121-X

Type

conf

DOI

10.1109/CNNA.2002.1035063

Filename

1035063