期刊名称:International Journal of Hybrid Information Technology
印刷版ISSN:1738-9968
出版年度:2013
卷号:6
期号:4
出版社:SERSC
摘要:The increasing demand for multi-degree-of-freedom (DOF) continuum robot in presence of highly nonlinear dynamic parameters in a number of industries has motivated a flurry of research in the development of soft computing nonlinear methodology. Compared to conventional robotic manipulators that offer the same motion capabilities, the innovative continuum robot possesses several advantages. Not only can the continuum robot flexible, it has a large range of motion with no singularities in its workspace. This research contributes to the on-going research effort by exploring alternate methods for controlling the continuum robot manipulator. This research addresses two basic issues related to the control of a continuum robots; (1) a more accurate nonlinear controller based on backstepping methodology, and (2) the design of a robust feedback linear plus nonlinear estimator to estimate the highly nonlinear parameters. The robust backstepping controller proposed in this research is used to further demonstrate the appealing features exhibited by the continuum robot. Robust feedback controller is used to position control of continuum robot in presence of uncertainties. Using Lyapunov type stability arguments, a robust backstepping controller is designed to achieve this objective. The Proportional Integral Derivative (PID) plus fuzzy estimator is used to solution uncertainty problem. The fuzzy model free problem is formulated to minimize the nonlinear formulation of continuum robot. The eventual stability of the controller depends on the torque generating capabilities of the continuum robots
