Publication: Control of non-linear actuator of artificial muscles for the use in low-cost robotics prosthetics limbs
Date
2017
Authors
Atikah N.A.
Weng L.Y.
Anuar A.
Fat C.C.
Sahari K.S.M.
Abidin I.Z.
Journal Title
Journal ISSN
Volume Title
Publisher
Institute of Physics Publishing
Abstract
Currently, the methods of actuating robotic-based prosthetic limbs are moving away from bulky actuators to more fluid materials such as artificial muscles. The main disadvantages of these artificial muscles are their high cost of manufacturing, low-force generation, cumbersome and complex controls. A recent discovery into using super coiled polymer (SCP) proved to have low manufacturing costs, high force generation, compact and simple controls. Nevertheless, the non-linear controls still exists due to the nature of heat-based actuation, which is hysteresis. This makes position control difficult. Using electrically conductive devices allows for very quick heating, but not quick cooling. This research tries to solve the problem by using peltier devices, which can effectively heat and cool the SCP, hence giving way to a more precise control. The peltier device does not actively introduce more energy to a volume of space, which the coiled heating does; instead, it acts as a heat pump. Experiments were conducted to test the feasibility of using peltier as an actuating method on different diameters of nylon fishing strings. Based on these experiments, the performance characteristics of the strings were plotted, which could be used to control the actuation of the string efficiently in the future. � 2017 Published under licence by IOP Publishing Ltd.
Description
Actuators; Artificial limbs; Costs; Engineering research; Linear control systems; Manufacture; Muscle; Position control; Prosthetics; Robotics; Artificial muscle; Electrically conductive; Fluid materials; Force generation; Manufacturing cost; Non linear control; Performance characteristics; Prosthetic limbs; Linear actuators