刘骁康
个人信息Personal Information
讲师(高校)
性别:男
在职信息:在职
所在单位:人工智能与自动化学院
学历:研究生(博士)毕业
学位:工学博士学位
毕业院校:18luck新利电竞
学科:控制理论与控制工程
- Wu Yang,Yan-Wu Wang,Irinel-Constantin Morǎrescu,Xiao-Kang Liu(*),Yuehua Huang.Fixed-Time Synchronization of Competitive Neural Networks With Multiple Time Scales.IEEE Transactions on Neural Networks and Learning Systems, in press, DOI: 10.1109/TNNLS.2021.3052868,
- Xinyao Li,Changyun Wen,Xiao-Kang Liu(*).Finite-Dimensional Sampled-Data Control of Fractional-Order Systems.IEEE Control Systems Letters, in press, DOI:10.1109/LCSYS.2021.3054724,
- Xinyao Li,Changyun Wen,Xiao-Kang Liu(*).Sampled-Data Control Based Consensus of Fractional-Order Multi-Agent Systems.IEEE Control System Letter,2021,(1):133-138.
- Xiao-Kang Liu,Yan-Wu Wang(*),Pengfeng Lin,Peng Wang.Distributed Supervisory Secondary Control for a DC Microgrid.IEEE Transactions on Energy Conversion,2020,(4):1736-1746.
- Xiao-Kang Liu,Ji-Feng Zhang(*),Jimin Wang.Differentially private consensus algorithm for continuous-time heterogeneous multi-agent systems.Automatica,2020,,109283.
- Xiao-Kang Liu,He Jiang,Yan-Wu Wang,Haibo He(*).A Distributed Iterative Learning Framework for DC Microgrids: Current Sharing and Voltage Regulation.IEEE Transactions on Emerging Topics in Computational Intelligence,2020,(2):119-129.
- Yan-Wu Wang,Yao-Wen Wei,Xiao-Kang Liu,Nan Zhou,Christos G. Cassandras.Optimal Persistent Monitoring Using Second-Order Agents With Physical Constraints.IEEE Transactions on Automatic Control,2019,(8):3239-3252.
- Xiao-Kang Liu,Haibo He(*),Yan-Wu Wang,Qianwen Xu,Fanghong Guo.Distributed Hybrid Secondary Control for a DC Microgrid via Discrete-Time Interaction.IEEE Transactions on Energy Conversion,2018,(4):1865-1875.
- Yan-Wu Wang,Xiao-Kang Liu,Jiang-Wen Xiao,Yanjun Shen.Output formation-containment of interacted heterogeneous linear systems by distributed hybrid active control.Automatica,2018,
- Xiao-Kang Liu,Yan-Wu Wang(*),Jiang-Wen Xiao,Wu Yang.Distributed hierarchical control design of coupled heterogeneous linear systems under switching networks.International Journal of Robust and Nonlinear Control,2017,(8):1242-1259.
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