一、答辩题目:Robust Control Schemes for Perturbed Underactuated Overhead Cranes
二、答辩人:Muhammad Auwal Shehu
三、答辩时间:2021年10月26日10:00
四、答辩地点:帝博国际会所入口楼327
五、内容简介:
The overhead crane is vital in handling payloads. It provides payload transportation services in rocket launch sites, automated assembly lines, shipping yards, warehouses, mining sites, and power plants. Despite the fact that many exciting techniques and findings for the control of overhead cranes have been published, advanced control strategy designs for these underactuated systems remain an open research area. A thorough literature review is presented in this research work, emphasizing the advantages, limitations, and problems of existing control strategies. Advanced control laws based on conventional and higher-order sliding mode controls and Takagi-Sugeno (T-S) parallel distributed compensation (PDC) control are developed to stabilize the systems and meet specific performance objectives. Some algorithms and methods exploited to achieve the specified control efficacy for these control methods included the neural network, fuzzy logic, prescribed performance function, T-S fuzzy PDC, linear matrix inequality formulations.
六、报告人简介
Muhammad Auwal Shehu was born in 1985. Shehu received a B.Eng degree in Electrical Engineering from Bayero University, Kano, Nigeria, in 2012. He also received an M.Eng degree in Mechatronics & Automatic Control from Universiti Teknologi, Malaysia, in 2016. He is currently a PhD candidate in Control Science and Engineering at the School of Automation, Northwestern Polytechnical University, Xi'an. His research interests include sliding mode control and observation, T-S fuzzy parallel distributed compensation control, and under-actuated mechanical systems.