个人简介
| 杨勇,男。工学博士,副教授,硕士研究生导师。主持国家自然科学基金项目1项,主持军工及企事业项目十余项。发表SCI、EI论文10余篇,担任 IEEE TIE, TII,TNNLS, TMAC, TCST等多个国际知名期刊审稿人。从事智能控制,学习控制,机器人与外骨骼系统,非线性控制等理论研究。擅长高性能嵌入式系统研发,熟悉单片机(STM32,51,AVR,ATMEL,TI430,Freescale等系列)、CPU(FreeScale I.MX6, I.MX2,Rockchip RK3399Pro等)、DSP (TI C6657, DM8168, DM6467T, 28xx等,ADI TigerSharc TS201)、FPGA(Xilinx Vertex, Spantan, Altera Cyclone等系列)、PLC自动控制等系统研发。 |
工作经历
| 2018.1-2021.12,西华大学,金沙集团888881,讲师;2022.1-至今, 西华大学,金沙集团888881,副教授。 |
教育经历
| 2013.9-2017.12,西南交通大学,电气工程学院,博士。 |
研究方向
理论研究: 非线性控制理论; 学习控制理论; 机器人与外骨骼系统; 高速列车运行控制; 应用研究: 高性能嵌入式系统; 单片机,CPU,DSP,FPGA; 电气控制系统,PLC; |
学术成果
学术论文: [1] Y. Yang, L. Ma, and D. Huang. Development and repetitive learning control of lower limb exoskeleton driven by electro-hydraulic actuators [J]. IEEE Transactions on Industrial Electronics, 2017, 64(5): 4169–4178. [2] Y. Yang, Y. Li, X. Liu and D.Huang.Adaptive neural network control for a hydraulic knee exoskeleton with valve deadband and output constraint based on nonlinear disturbance observer [J]. Neurocomputing, 2022,473:14–23. [3] Y. Yang, D. Huang, C. Jin, X. Liu and Y. Li. Neural learning impedance control of lower limb rehabilitation exoskeleton with flexible joints in the presence of input constraints[J]. International Journal of Robust and Nonlinear Control, 2022, Accept. [4] Y. Yang, X. Dong, Z. Wu, X. Liu and D. Huang. Disturbance-observer-based neural sliding mode repetitive learning control of hydraulic rehabilitation exoskeleton knee joint with input saturation[J]. International Journal of Control, Automation and Systems, 2022, Accept. [5] Y. Yang, D. Huang and X. Dong. Enhanced neural network control of lower limb rehabilitation exoskeleton by add-on repetitive learning [J]. Neurocomputing, 2019, 323:256-264. [6] Y. Yang, X. Dong, X. Liu, and D. Huang. Robust repetitive learning-based trajectory tracking control for a leg exoskeleton driven by hybrid hydraulic system [J]. IEEE Access,2020,8:27705-27714. [7] Y. Yang, D. Huang, L. Ma and X. Dong. Output feedback repetitive learning control of an electrohydraulic actuator of a lower limb rehabilitation exoskeleton [J]. Computing in Science & Engineering,2019.21(6):6-19. [8] Y. Yang, L. Ma, et.al. Sampled-Data Repetitive Learning Control of Electro-Hydraulic Actuator used in Lower Limb Exoskeleton for Rehabilitation Based on Euler Approximation [C], IEEE 6th Data Driven and Learning Systems Conference, Chongqing China,2017:231-236. [9] Y. Yang, D. Huang and X. Dong. Robust Repetitive Learning Control of Lower Limb Exoskeleton with Hybrid Electro-hydraulic System [C], IEEE 7th Data Driven Control and Learning Systems Conference, Enshi China, 2018:718-723. [10] Y. Yang, X. Dong, X. Wang, and D. Huang. Trajectory Tracking Control of Hydraulic Rehabilitation Exoskeleton Leg with Output Constraint [C], IEEE 8th Data Driven Control and Learning Systems Conference, Dali China, 2019:129-134. 科研项目: 1. 面向人在环路的下肢康复外骨骼自适应迭代学习控制研究(62003278),国家自然科学基金,主持; 2. 列车巡检机器人控制板卡研发,企事业委托,主持; 3. 基于DSP-TS201与Xilinx V6 FPGA的雷达信号处理板卡研发,企事业委托,主持(已结题); 4. 基于Altera FPGA的高性能16通道高速数据采集板卡,企事业委托,主持(已结题); 5. 基于TI DSP DM6467T的图像处理板卡,企事业委托,主持(已结题); 6. 基于TI DSP DM8168的数字视频信号处理板卡,企事业委托,主持(已结题); 7. 基于TI DSP 6657的高性能数字信号处理板卡研制,企事业委托,主持(已结题); 7. 某核潜艇电源群组冷却控制系统研发,企事业委托,主持(已结题); 8. 基于FreeScale IMX6的高性能嵌入式计算机模块研发,企事业委托,主持(已结题); 9. 基于RockChip RK3399Pro的高性能AI计算平台研发,企事业委托,主持(已结题); 10.基于STM32的RFID智能文件柜控制系统研发,企事业委托,主持(已结题); 11.基于STM32的某液压润滑油站控制系统研发,企事业委托,主持(已结题); 12.基于STM32的工业温度/压力数显表研发,企事业委托,主持(已结题); 13.基于Xilinx K7 FPGA的数字存储示波器采样板卡研发,企事业委托,主持(已结题)。 |
教学工作
本科生课程: 自动化专业前沿讲座 微机原理及应用 单片机原理及应用 电气控制技术与PLC 机器人技术 研究生课程: 机器人技术及应用 |