Title :
Optical Flow Aided Motion Estimation for Legged Locomotion
Author :
Singh, Surya P N ; Csonka, Paul J. ; Waldron, Kenneth J.
Author_Institution :
Robotics Locomotion Laboratory, Stanford Univ., CA
Abstract :
Dynamic legged locomotion entails navigating terrain at high speed. The impact shocks from rapid footfalls, pivotal for such mobility, introduce large impulses that saturate motion measurement. A biomimetic approach is presented in which visual information, in the form of optical flow, complements information from inertial sensors. The motion is then determined using a two-phase hybrid extended Kalman filter. Experimentation in determining attitudes on a robotic leg platform shows a reduction in drift over inertial approaches and in delay over visual approaches. In tests with 6g impulses, pose was recovered within 5 deg rms with angular rate errors limited to 10 deg/sec at frequencies up to 250 Hz
Keywords :
biomimetics; computer vision; filtering theory; inertial navigation; legged locomotion; robot dynamics; attitude estimation; biomimetics; dynamic legged locomotion; inertial sensors; optical flow aided motion estimation; position estimation; robotic leg platform attitudes; two-phase hybrid extended Kalman filters; visual information; Biomedical optical imaging; Electric shock; High speed optical techniques; Image motion analysis; Legged locomotion; Motion estimation; Navigation; Optical filters; Optical saturation; Optical sensors;
Conference_Titel :
Intelligent Robots and Systems, 2006 IEEE/RSJ International Conference on
Conference_Location :
Beijing
Print_ISBN :
1-4244-0259-X
Electronic_ISBN :
1-4244-0259-X
DOI :
10.1109/IROS.2006.282134
