Showing papers by "Ming-Jyi Jang published in 2002"

Sliding mode control of chaos in the cubic chua's circuit system

Abstract: In this paper, a sliding mode controller is applied to control the cubic Chua’s circuit system. The sliding surface of this paper used is one dimension higher than the traditional surface and guarantees its passage through the initial states of the controlled system. Therefore, using the characteristic of this sliding mode we aim to design a controller that can meet the desired specication and use less control energy by comparing with the result in the current existing literature. The results show that the proposed controller can steer Chua’s circuit system to the desired state without the chattering phenomenon and abrupt state change.

Sliding mode control of hyperchaos in Rössler systems

Abstract: In this paper, an extended sliding mode controller is applied to control a hyperchaotic motion in Rossler system. The sliding surface of this paper used is one dimension higher than traditional sliding surface and guarantees it passing through the activated initial states of controlled system. Therefore, using the characteristic of this sliding mode to design a controller not only can meet the desired specification but also without chattering phenomenon and abrupt state change. By comparing with the result in the existed literatures, the results show that the proposed controller can steer Rossler system to the desired state accurately. It also provides a good characteristic for disturbance rejection.