科研动态
当前位置: 首页 >> 科学研究 >> 科研动态 >> 正文
002cc白菜资讯讲座信息——澳大利亚莫道克大学王海副教授
作者: 日期:2023-12-04 点击量:

讲座题目:Adaptive path tracking control of maize plant protection robot via extreme learning machine

主 讲 人:澳大利亚莫道克大学王海副教授

讲座时间:2023年12月5日(周二)14:00-15:00

讲座地点:腾讯会议号(853-838-086)6号学院楼402

主办单位:002cc白菜资讯浙江省2011“数据科学与大数据分析协同创新中心”

要:

During the maize middle and late periods, the soil between rows is soft and also involved with weeds and straw. When the plant protection robot (PPR) moves on the soil, there exists uncertain shear perturbation because of the shear action and pressure subsidence, leading to the difficulty of the controller design. In this work, we propose an adaptive path tracking control (PTC) considering disturbances for the PPR. The disturbance of PRR in contact with soil is first revealed according to Bekker pressure subsidence and Janosi shear models, through which the plant model of PPR system is established. Then, we propose an adaptive fixed-time sliding mode (AFTSM)-based PTC to achieve excellent path tracking performance, where an extreme learning machine (ELM) estimator is developed, releasing the requirement for bound derivations in the control design. Using the fixed-time control and the ELM techniques in the proposed control, a remarkable control performance is well ensured, i.e., high-accuracy tracking, fast convergence, and excellent robustness. Experimental studies on a PPR are executed for demonstrating the validity and good performance of the designed controller.

个人简介:

王海博士(IEEE高级会员,英国高等教育学会会士)于2014年澳大利亚斯文本科技大学获得机器人与机电一体化专业博士学位,2014-2015于该校任博士后研究员,2015-2019年初于合肥工业大学电气与自动化工程学院任教授(黄山青年学者)及自动化系统副主任。现任澳大利亚莫道克大学电气工程终身副教授,智能工业控制与无人系统工程学术主席,先进机器人与无人系统实验室主任。发表了120多篇高水平国际期刊论文(包括40余篇IEEE汇刊长文,3篇ESI热引论文及8篇ESI高被引论文),谷歌学术引用3700余次,H指数为33。现担任国际SCI期刊IEEE Transactions on Emerging Topics in Computing、Actuators、Robotics、Computers and Electrical Engineering (Elsevier),ASME-Journal of Autonomous Vehicles and Systems, Frontiers in Robotics and AI等期刊的主题主编、副主编及编委。2020年担任IEEE工业电子协会西澳分部主席,并荣获2021年IEEE工业电子协会全球最佳分部奖。2023年获莫道克大学研究卓越奖(早期职业)。其主要研究方向是滑模控制和观测器、自适应控制、机器人学和机电一体化、神经网络、非线性系统,无人车辆及系统,工业4.0及智慧农业等。

欢迎感兴趣的师生积极参加!

上一条:002cc白菜资讯讲座信息——广东财经大学林洪教授 下一条:关于召开浙江省经济学会2023年学术年会的通知

关闭