代表性学术成果:
1、科研项目: 1)一种新型的控制分配策略及其在多缸液压机中的应用研究.天津市自然科学基金,主持人. 2)基于动态分配策略的多缸液压机多级滑模自适应控制.天津市教委项目,主持人. 3)粉末冶金压力机,国家科技重大专项,主要完成人 4) Ethernet/IP工业以太网从节点关键技术研究,天津市科技支撑重点课题,第2完成人 5)网络控制系统理论与技术研究,天津市科技创新基金项目,第2完成人 6)具有故障自诊断功能的Profibus-DP智能I/O装置,科技部中小企业创新基金,第3完成人 7)基于预测理论网络控制理论与DeviceNet通信技术研究,天津市自然科学基金重点课题,第4完成人 8)基于对称高密度紧小波框架的机电设备故障诊断,天津市自然科学基金重点项目,第5完成人 9)基于网络环境下的神经网络电机故障在线诊断,天津市自然科学基金项目,第6完成人
2、论文、专著: 著作:现代电器及PLC控制技术(S7-1200),主编,化学工业出版社,2023.2 论文: 1)Chao Jia,Xiaohua Liu and Lifeng Du. Adaptive Second-Order Fixed-Time Nonsingular Terminal Sliding Mode Control Based on Barrier Function for Nonlinear Systems.IEEE Transactions on Industrial Informatics(2023),1-10. (中科院:SCI 1区TOP) 2) Chao Jia,Xiaohua Liu and Jingyu Xu. Predefined-Time Nonsingular Sliding Mode Control and Its Application to Nonlinear Systems.IEEE Transactions on Industrial Informatics(2023),1-9. (中科院:SCI 1区TOP) 3)Chao Jia,Xiaohua Liu;Xinyu Li;Jingyu Xu.A New Adaptive Predefined Time Sliding Mode Control for Nonlinear Systems.IEEE Transactions on Circuits and Systems II: Express Briefs,2024,71(4),2094-2098.(中科院:SCI 2区) 4)Chao Jia,Xuanyue Shangguan, Linxin Zheng.Dynamic boundary layer super-twisting sliding mode control algorithm based on RBF neural networks for a class of leader-follower multi-agent systems.International Journal of Robust and Nonlinear Control.2023,1-32.(中科院:SCI 3区) 5)Chao Jia,Lijie Li,Xuanyue Shangguang.Adaptive Recursive Terminal Sliding Mode Control for Uncertain Systems With Imput Saturation Based on Positive Semi-Definite Barrier Function.International Journal of Control,Automation and Systems.2024.(中科院:SCI 3区) 6)Chao Jia,Y. Sun, L. Du, and H. Wang. Fault-tolerant control strategy for multicylinder hydraulic press machine based ondynamic control allocation and adjustable multiobjective optimization,Asian J. Control(2023), 1–18.(中科院:SCI 4区) 7)Chao Jia,Xiaohua Liu. Tunable predefined time nonsingular terminal sliding mode control based on neural network for nonlinear systems,IEEE Access(2023), 1-8.(中科院:SCI 3区) 8)Chao Jia,Deding Kong, Lifeng Du.Recursive Terminal Sliding-Mode Control Method for Nonlinear System Based on Double Hidden Layer Fuzzy Emotional Recurrent Neural Network,IEEE Access(2022), 118012-118023.(中科院:SCI 3区) 9)Chao Jia,Richard W. Longman, Enzeng Dong. Low-order sliding mode repetitive control for discrete-time systems under complex disturbance environment.International Journal of Robust and Nonlinear Control.2021,31, 5188-5217.(中科院:SCI 2区) 10)Chao Jia,Richard W. Longman. An adaptive smooth second-order sliding mode repetitive control method with application to a fast periodic stamping system.System & Control Letters.2021,151, 104912.(中科院:SCI 3区) 11)Chao Jia,Zijian Song.Safe Reinforcement learning Based Balance Control for Multi-Cylinder Hydraulic Press.Journal of Dynamic Systems, Measurement, and Control.Accepted. (中科院:SCI 4区) 12)Chao Jia,Peng Liu.Leveling control of multi-cylinder hydraulic press based on multi-agent reinforcement learning.Transactions of the Institute of Measurement and Control. Accepted. (中科院:SCI 4区) 13)贾超赵书豪孔德丁.基于模糊情感神经网络的多缸液压机反步滑模控制策略,重庆理工大学学报(自然科学),2023,37(8):194-202 14)贾超何浩成董恩增.基于扰动观测器的液压机滑模容错动态分配,华中科技大学学报(自然科学版),2021. 15)贾超张昊天.多缸液压机的自适应容错滑模控制分配,华中科技大学学报(自然科学版),2019,47(8),p92-97. 16)贾超周俊强.基于AMESim-MATLAB/Simulink的液压机新型控制器设计及联合仿真,锻压技术,2019,44(11),p146-151. 17)贾超曹士芹等.CC-Link远程设备站的开发与应用,仪表技术与传感器2017,4(4),p54-57. 18)贾超吴爱国.新型的多缸液压机控制方法,华中科技大学学报(自然科学版),2013,41(9), p42-47. 19)贾超吴爱国.基于李雅普诺夫直接法的电液伺服系统控制方法研究,吉林大学学报(工学版),2012,42(3), p696-701. 20)贾超吴爱国郑爱红.一类多缸液压机的分散滑模控制,仪器仪表学报,2012,33(7), p1513 -1520. 21)贾超陈在平张建峰.基于多种数据触发方式的DeviceNet从节点通信技术研究,仪器仪表学报,2009,30(2), p324-329. 22)贾超陈在平王露萍张建峰张硕.基于时延优化策略的现场总线软冗余控制系统实现,制造业自动化,2006,28(5):53-56. 23)Chao Jia, Junqiang Zhou. Supertwisting sliding mode repetitive control under periodic disturbance,2018, Proceedings of 2018 IEEE International Conference on Mechatronics and Automation, ICMA 2018, p 2322-2327 24)Chao Jia. Low Order Sliding Mode Repetitive Control for Discrete-time System under Multi-periodic Disturbances,2018, Proceedings of the 2018 13th World Congress on Intelligent Control and Automation, WCICA 2018, p 1328-1331 3、其他成果(专利、奖励等): 获得的专利: 1)一种集成工业以太网从站自主识别主站的方法,专利号:CN201410703498,第1作者 2)基于多种数据触发方式的DeviceNet现场总线I/O通信装置,专利号:200820074899.1,第1作者 3) Profibus-DP和Modbus集成化从节点装置,专利号:CN201210159655,第2作者 4)基于双口RAM的嵌入式通用Ethernet/IP通信接口装置,专利号:CN201110161643,第2作者 5)基于DSP的DeviceNet现场总线数字模拟I/O通信装置,专利号:200610130167.5,第3作者 6)一种工业炉群氧含量间接监测方法,专利号:CN201310404947,第3作者 7)具有短路保护与自诊断功能的DeviceNet现场总线输入输出装置,专利号:200910069367.8,第3作者 8)一种工业加热炉内温度场在线重构与监测方法,专利号:CN201310405429,第4作者 其他奖励: 1)天津市高校中青年骨干教师培养计划 2)天津市“131”创新型人才培养工程第二层次人选 3)首批“天津市高校优秀青年教师资助计划”
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