Visuo-Motor Coordination in Bipedal Humanoid Robot Walking

Author

Suzuki, Mototaka

Author_Institution

Dept. of Neurosci., Columbia Univ., Columbia, NY

Volume

3

fYear

2008

fDate

13-15 Dec. 2008

Firstpage

207

Lastpage

208

Abstract

Complex visual tasks may be tackled with remarkably simple neural architectures generated by a co-evolutionary process of active vision and feature selection. This hypothesis has recently been tested in several robotic applications such as shape discrimination, car driving, indoor/outdoor navigation of a wheeled robot. Here we describe an experiment where this hypothesis is further examined in goal-oriented humanoid bipedal walking task. Hoap-2 humanoid robot equipped with a primitive vision system on its head is evolved while freely interacting with its environment. Unlike wheeled robots, bipedal walking robots are exposed to largely perturbed visual input caused by their own walking dynamics. We show that evolved robots are capable of coping with the dynamics and of accomplishing the task by means of active, efficient camera control.

Keywords

cameras; feature extraction; humanoid robots; legged locomotion; robot dynamics; robot vision; bipedal humanoid robot walking; camera control; feature selection; robot dynamics; visuo-motor coordination; Cameras; Humanoid robots; Legged locomotion; Machine vision; Mobile robots; Navigation; Robot kinematics; Robot vision systems; Shape; Testing; active vision; bipedal walking; humanoid robot; neural networks;

fLanguage

English

Publisher

ieee

Conference_Titel

Future Generation Communication and Networking Symposia, 2008. FGCNS '08. Second International Conference on

Conference_Location

Sanya

Print_ISBN

978-1-4244-3430-5

Electronic_ISBN

978-0-7695-3546-3

Type

conf

DOI

10.1109/FGCNS.2008.28

Filename

4813580