Title :
SACST: smart anthropomorphic contact surface technology
Author :
Kao, Imin ; Chen, Shih-feng ; Li, Yanmei ; Wang, Geng
fDate :
3/1/2003 12:00:00 AM
Abstract :
In this article, we present the ongoing research work of smart anthropomorphic contact surface technology (SACST) and applications in robotics and human-augmented systems. Integrating MEMS technology with contact theory and intelligent-control techniques, SACST can alter the behavior of contact surfaces based on robotics theories. To make SACST products more reliable and efficient, certain critical components are indispensable. For example, MEMS valves should be able to work under more resistant force and with less power consumption; the contact sensor should have higher and flexible resolution; and the actuation mechanism of the bladders should become more integrated, more flexible, and easier to control. Next-generation SACST technology will also integrate intelligent operation systems and control with actuators and sensors.
Keywords :
biomechanics; ergonomics; handicapped aids; intelligent control; intelligent sensors; mechanical contact; medical robotics; microactuators; microsensors; microvalves; MEMS technology; MEMS valves; bioengineering contact interface; bladder actuation mechanism; contact pressure distribution; contact sensor; contact theory; human-augmented systems; intelligent control; power consumption; robotics; sensitive skins; smart anthropomorphic contact surface technology; stiffness control; Anthropomorphism; Energy consumption; Force sensors; Intelligent actuators; Intelligent robots; Intelligent sensors; Micromechanical devices; Power system reliability; Robot sensing systems; Valves;
Journal_Title :
Robotics & Automation Magazine, IEEE
DOI :
10.1109/MRA.2003.1191710
