Title :
Quadruped locomotion: Dynamic gait control & design optimization
Author :
Duc Trong Tran ; Yoon Haeng Lee ; Ig Mo Koo ; Hyouk Ryeol Choi
Author_Institution :
Sch. of Mech. Eng., Sungkyunkwan Univ., Suwon, South Korea
fDate :
Oct. 30 2013-Nov. 2 2013
Abstract :
In this presentation, we introduce two majored contents including novel algorithms in control of dynamic locomotion of quadruped robots on unknown rough terrains and the method towards the optimization solutions in running legged robots. The control strategy was designed based on two different approaches. The first one uses the biologically inspired artificial Central pattern generators as the controller core whereas the second approach proposed a new method to approximate the leg motion using 3D spring-damper system model. Both two approaches were thoroughly studied in simulations and real experiments in a quadruped robot named AiDIN III. Besides, we present a practical procedure to solve the optimization problem of running robot design. The core idea is to use numerical tools to indirectly search for the parameters which results in not only self-stable motion but also optimized hardware structure.
Keywords :
control system synthesis; legged locomotion; shock absorbers; springs (mechanical); vibrations; 3D spring-damper system model; AiDIN III; artificial central pattern generators; design optimization; dynamic gait control; dynamic locomotion; leg motion; numerical tools; optimization problem; optimization solutions; optimized hardware structure; quadruped locomotion; quadruped robots; running legged robots; running robot design; self-stable motion; unknown rough terrains; Quadruped robots; biomimetic control; differential optimization; legged locomotion;
Conference_Titel :
Ubiquitous Robots and Ambient Intelligence (URAI), 2013 10th International Conference on
Conference_Location :
Jeju
Print_ISBN :
978-1-4799-1195-0
DOI :
10.1109/URAI.2013.6677479
