TY - JOUR A2 - Bukovsky, Ivo AU - Song, Ki-Young AU - Gupta, Madan M. AU - Homma, Noriyasu PY - 2011 DA - 2012/02/29 TI - Design of an Error-Based Adaptive Controller for a Flexible Robot Arm Using Dynamic Pole Motion Approach SP - 726807 VL - 2011 AB - Design of an adaptive controller for complex dynamic systems is a big challenge faced by the researchers. In this paper, we introduce a novel concept of dynamic pole motion (DPM) for the design of an error-based adaptive controller (E-BAC). The purpose of this novel design approach is to make the system response reasonably fast with no overshoot, where the system may be time varying and nonlinear with only partially known dynamics. The E-BAC is implanted in a system as a nonlinear controller with two dominant dynamic parameters: the dynamic position feedback and the dynamic velocity feedback. For illustrating the strength of this new approach, in this paper we give an example of a flexible robot with nonlinear dynamics. In the design of this feedback adaptive controller, parameters of the controller are designed as a function of the system error. The position feedback Kp(e,t) and the velocity feedback Kv(e,t) are continuously varying and formulated as a function of the system error e(t). This approach for formulating the adaptive controller yields a very fast response with no overshoot. SN - 1687-9600 UR - https://doi.org/10.1155/2011/726807 DO - 10.1155/2011/726807 JF - Journal of Robotics PB - Hindawi Publishing Corporation KW - ER -