个人简介:硕士生导师/ 88038威尼斯学科学术带头人培养对象/一流学科特岗教授;九三学社贵州省科技与资环委专委会委员/中国指挥与控制学会空天安全学会常务委员;主持国家自然科学基金1项,省部级以上基础研究和人才项目3项,以及各类横向项目共10余项;以第一作者/通讯作者发表论文30余篇,其中,SCI论文20余篇,中科院二区以上10余篇。
联系方式:417524788@qq.com; appang@gzu.edu.cn;
工作经历:
2021/09-2022/07,清华大学,自动化系,访问学者;
2021/12-至今,88038威尼斯,自动化系,副教授;
2018/09-2020/12,88038威尼斯,自动化系,讲师;
2014/03-2018/01,哈尔滨工业大学,航天学院自动化系,博士;
2011/09-2013/07,哈尔滨工业大学,理学院数学系,硕士 ;
2005/09-2009/07,哈尔滨师范大学,数学与计算机科学学院,学士;
研究方向:1.航天器控制与空间惯性技术;2.工业大数据与物联网;
3.新能源与智能电网。
教育教学:主讲自动控制原理、现代控制原理、智能控制等自动化相关专业课程;获得88038威尼斯首届青教赛三等奖。培养控制理论与控制工程/模式识别与智能系统学硕,控制工程专硕。
科研项目:
15.国家地区科学基金,考虑微推进系统干扰特性和输出约束的卫星自抗扰无拖曳控制,12162007,2022/01-2025/12,主持,在研;
14.航天等离子体推进工信部重点实验室,面向空间引力波探测的微推进无拖曳控制研究2021/10-2023/10,在研,主持;
13.88038威尼斯研究生院,学科交叉融合的电气工程创新人才计划,YKJP202310,2023/05-2025/05,在研,参与;
12. 贵大勘察设计研究院,贵大勘察[2022] 02号,高比例新能源发电预测随机场景生成方法研究,2022/12- 2025/12,在研,参与;
11. 贵州省科技厅,科学技术基金,黔科合基础-ZK[2022]一般062,面向可再生能源场景生成的深度学习模型及算法性能研究,2022/04-2025/03,在研,参与
10. 贵州省科技厅,优秀青年科技人才项目,黔科合平台人才[2021]5645号,智能电网的柔性运行和优化控制技术,2021/12-2024/12,在研,参与;
9.88038威尼斯科研院,贵大培育[2019]60,大型柔性航天器的结构化综合控制,2020/10-2023/10,主持,已结题;
8.贵州省教育厅,青年人才项目,黔科合KY[2021]100,挠性系统的鲁棒综合控制研究,2021/1-2023/1,主持,已结题;
7. 天琴计划教育部重点实验室,面向引力波探测的卫星自抗扰高增益无拖曳控制,2020/10-2022/10,主持,已结题;
6.贵州省科技厅,科学技术基金,黔科合基础[2020]1Y273,H∞控制的结构化方法与应用研究,2020/01-2022/12,主持,已结题;
5.大连理工大学合作研究项目,大型柔性系统的自适应控制研究,2019/11-2020/09,主持,已结题;
4.88038威尼斯人才引进项目,[2018]1,运动物体的H∞综合控制制研究,2019/01-2021/01,主持,已结题;
3.国家自然科学地区科学基金,6196020572,基于非充分故障信息的渐进主动容错控制方法研究,2020/01-2023/12,参与,在研;
2.贵州省科技厅,科学技术基金,黔科合基础[2020]1Y266,面向山地场景的异构传感器网络拓扑生成与路由算法研究,2020/01-2022/12,参与,已结题;
1.贵州省科技厅工业攻关项目,大规模太阳能光伏阵列运维关键技术研究,黔科合支撑[2019]2152号,2019/01-2022/12,参与,已结题;
第一作者/通讯作者论文:
[34]周俊杰,庞爱平*,周鸿博,孟范伟,刘辉.考虑微推力器输出特性的引力波探测卫星分数阶PID控制[J/OL].深空探测:2023. (北大核心)
[33] Zhou J, Pang A*, Zhou H. Active Disturbance Rejection Control of drag-free satellites considering the effect of micro-propulsion noise[J]. iScience. (SCI /中科院二区)
[32] H. Feng, HB.Zhou, CM Jiang*, A. Pang*. Active Disturbance Rejection Control of drag-free satellites considering the effect of micro-propulsion noise[J]. Plosone.2023(SCI/ JCR Q1 /中科院三区)
[31] Shengcheng Wu; Aiping Pang *. Optimal scheduling strategy for orderly charging and discharging of electric vehicles based on spatio-temporal characteristics . Journal of Cleaner Production [J]. 392 (2023) 136318. (SCI /JCR Q1/中科院一区)
[30] Zhou, J; Pang, A*; Liu, H;Zhou, H; Niu, X. Precision Feedback Control Design of Miniature Microwave Discharge Ion Thruster for Space GravitationalWave Detection. Aerospace[J]. 2022, 9, 760. https://doi.org/10.3390/aerospace9120760(SCI/ JCR Q1/中科院三区)
[29]. Xinhan Li , Wen Yang , Aiping Pang ∗, Congmei Jiang , Qianchuan Zhao ,Syed Naeem Haider. A fault diagnosis method for VRLA battery in data center, Energy Reports [J]. 2022.14220–14235. (SCI/JCR Q1/中科院二区)
[28]周俊杰,庞爱平*,刘辉,周鸿博,牛翔.基于微波调控的离子推力器数字反馈控制研究[J/OL].推进技术:1-13[2022-11-08].DOI:10.13675/j.cnki.tjjs.2209073. (EI期刊)
[27] H. Feng, A. Pang*,HB.Zhou. High precision robust control design of piezoelectric nanopositioning platform, Scientific Reports[J]. 2022, 4(7).(SCI/中科院三区)
[26] 冯焕,庞爱平*. 大型柔性航天器的高精度结构化综合控制[J]. 科学技术与工程, 2022,(北大核心)
[25] 朱辉,杨文,庞爱平*.基于OpenModelica仿真平台的暖通空调系统故障诊断研究[J]. 智能计算机与应用, 2021, 11(7):6. (中文核心)
[24] H. Zhu, W. Yang and A. Pang*, "HVAC System Modeling and Fault Simulation Research Based on Modelica," 2021 China Automation Congress (CAC), 2021, pp. 79-84, doi: 10.1109/CAC53003.2021.9727539.(EI 会议)
[23] Hui Zhu,Wen Yang, Shihong Li,Aiping Pang*. An Effective Fault Detection Method for HVAC Systems Using the LSTM-SVDD Algorithm [J]. Buildings 2022, 12, 246.(SCI/中科院三区)
[22] Yuntian Zhang, Aiping Pang*, Hui Zhu, Huan Feng. Structured H∞ Control for Spacecraft with Flexible Appendages. Entropy. 2021; 23(8):930(SCI /JCR Q1/中科院三区)
[21] Aiping Pang,Hongbo Zhou, Wenjie Cai ,JingZhang*. Improved Adaptive Augmentation Control for a Flexible Launch Vehicle with Elastic Vibration. Entropy 2021, 23, 1058. (SCI /JCR Q1/中科院三区)
[20]Aiping Pang, Hui Zhu,Junjie Zhou, Jing Yang*. Robust H∞ Control for The Spacecraft with Flexible Appendages[J]. Complexity.2020. (SCI 收录/JCR Q1//中科院二区)
[19] Aiping Pang, Hui Zhu,Hongbo Zhou, Tao Qin, Jing Yang*, Daoyin Long. Fixed-order H∞ control of an electric power steering system[J]. Modelling, Identification and Control, 2021 Vol. 37, Nos. 3/4, pp.258–266. (EI收录)
[18] Aiping Pang, Shengya Meng, Zhen He, Jing Zhang*. Robust H-inf phase control for flexible system with Weak damping [J].IEEE Acess.2020. vol. 8, pp. 195733-195740, 2020, doi: 10.1109/ACCESS.2020.3034222.(SCI /JCR Q1/中科院二区)
[17] Fanwei Meng, Kai Liu , Aiping Pang*. Fractional Order PID parameter tuning for Solar collector system based on Frequency domain analysis [J].IEEE Acess.2020. v 9. (SCI /JCR Q1/中科院二区)
[16] Hongbo Zhou , Aiping Pang*, Jing Yang. Structured H∞ Control of an Electric Power Steering System [J].Complexity.Learning and Adaptation for Optimization and Control of Complex Renewable Energy Systems (LAOCC).Article ID 9371327, 7 pages, 2020.(SCI /JCR Q1/中科院二区)
[15 Aiping Pang, Fan Chao, Hongbo Zhou, and Jing Zhang* .The method of Data Collection based on Multiple Mobile Nodes for Wireless Sensor Network [J]. IEEE Acess.2020. v 8, p 14704-14713(SCI/JCR Q1//中科院二区)
[14]Fan CHAO, Zhiqin He, Aiping Pang*, Hongbo Zhou, and Junjie Ge.Path Optimization of Mobile Sink Node in Wireless Sensor Network Water Monitoring System[J]. Complexity.2019. (SCI//JCR Q1/中科院二区)
[13]Aiping Pang*, Zhen He*, Ming-han Zhao, Guang-xiong Wang, Qin-mu Wu, and Ze-tao Li. Sum of Squares Approach for Nonlinear H-infinity Control [J]. Complexity, vol. 2018, Article ID 8325609, 7 pages, 2018. (SCI /JCR Q1/中科院二区)
[12]Fanwei Meng, Aiping Pang*, Xuefei Dong, Chang Han, Xiaopeng Sha. H∞ Optimal Performance Design of an Unstable Plant under Bode Integral Constraint [J]. Complexity, Bio-Inspired Learning and Adaptation for Optimization and Control of Complex Systems (BLAOCA), 2018, (SCI /JCR Q1/中科院二区)
[11]Aiping Pang, Zhen HE, Minglei LIU, Jing YANG*. Planning avoidance H-inf design for supercavitating vehcicles[J]. International Journal of Modelling, Identification and Control.(EI收录)
[10]庞爱平,周鸿博,杨靖*. 大型飞机的结构化H-inf控制设计[J].电机与控制学报. 2020(10)(EI收录)
[9]庞爱平,何朕. 超空泡航行体观测器补偿设计[J].电机与控制学报. 2018,22(1):1-7.(EI收录)
[8]何朕,庞爱平*. 水下超空泡航行体反馈控制设计[J].电机与控制学报.2017,21(8):101-108.(EI收录)
[7]庞爱平,何朕,王京华,王广雄. 水下高速超空泡航行体H-inf状态反馈控制[J].控制理论与应用.2018,34(2):10-17. (EI收录)
[6]何朕,庞爱平*,王京华. 水下高速超空泡航行体建模与分析[J].2018,30(8):3092-3098系统与仿真学报.(核心期刊)
[5]庞爱平,何朕,超凡,杨靖,王广雄. 超空泡航行体时滞特性分析[J].控制工程.(核心期刊)
[4]Aiping Pang,Zhen He, Min-han Zhao, Jinghua Wang, Feng Guo, Mingyun Chen. control of longitudinal motion for under water high speed supercavitating vehicles[C]. International Conference on Modelling, Identification and Control, Guiyang,2018.(EI收录)
[3]Aiping Pang, Zhen He*. Double-loop Decoupling Control For a Supercavitating Vehicle[C]. Youth academic annual conference, Hefei, 2017.(EI收录)
[2]Jinghua Wang, Aiping Pang*, Yang Liu, Xinlin CHEN, Kaiping YU. Control Design for a Time-delay Supercavitating Vehicle Model[C]. Intermational Conference Mechanical Engineering and Control Automation, Wuhan, 2016.1.224-229.
[1] Liu Minglei, Zhou Hongbo Pang Aiping*. Research on motion control system of 6-DOF robotic arm[C]. International Conference on Modelling, Identification and Control, Tianjin, 2019. (EI收录)
[0]Liu Ming-lei, Pang Ai-xin, Pang Ai-ping*, Liu Xiao-yan, Wu Qin-mu, Li Ze-tao. 2018. Delay-range-dependent robust H∞ control method for a linear parameter varying uncertain system with actuator saturation and state delay[J].International Journal of Applied Mathematics in Control Engineering.