Title :
Biomimetic soft actuator: design, modeling, control, and applications
Author :
Choi, Hyouk Ryeol ; Jung, Kwangmok ; Ryew, Sungmoo ; Nam, Jae-Do ; Jeon, JaeWook ; Koo, Ja Choon ; Tanie, Kazuo
Author_Institution :
Sch. of Electr. & Comput. Eng., Sungkyunkwan Univ., Appl. Chem., South Korea
Abstract :
A new biomimetic linear actuator named Antagonistically Driven Linear Actuator (ANTLA) that could be directly employed in both macro and microscale of robotic applications is introduced in the present work. The presented actuator provides cost effectiveness and simple fabrication process thanks to its plain construction. In addition to producing basic bidirectional rectilinear motions, the actuator is able to modulate its compliance that might be one of the critical elements of the actuator functionality for the biomimetic applications. For the test, the proposed actuator concept is fabricated and assembled in a microscale robot that generates annelid motion.
Keywords :
actuators; biomimetics; control system synthesis; robots; Antagonistically Driven Linear Actuator; artificial muscle; biomimetic linear actuator; biomimetic soft actuator control; biomimetic soft actuator design; biomimetic soft actuator modeling; dielectric elastometer; electroactive polymer; Biological materials; Biomimetics; Conducting materials; Costs; Dielectric materials; Fabrication; Hydraulic actuators; Intelligent robots; Polymer gels; Robotic assembly; Actuator; artificial muscle; biomimetic; dielectric elastomer; electroactive polymer (EAP);
Journal_Title :
Mechatronics, IEEE/ASME Transactions on
DOI :
10.1109/TMECH.2005.856108
