文章专著

发布者:网络化系统湖北省创新团队发布时间:2023-07-11浏览次数:23

出版书籍



1詹习生,涂建,吴杰,张先鹤通信受限系统性能优化设计(专著), 科学出版社

2、高红亮,詹习生,陈超洋基于本地信息的电网稳定性控制(专著), 科学出版社

3詹习生,韩涛,郝莉莉,汪丽多智能体系统一致性分析与设计科学出版社

4韩涛,肖波,詹习生,严怀成多智能体系统的协调分析与控制科学出版社



期刊文章



1、Zhan X S (詹习生, 通信作者)Du X, Wu J, Yan H. Performance analysis of MIMO information time-delay systems with message queues under multiple communication parameters. IEEE Transactions on Systems, Man, and Cybernetics: Systems, 2023, DOI: 10.1109/TSMC.2023.3304310. (SCI源刊,中科院1区 TOP期刊

2、Du X, Zhan X S (詹习生通信作者), Wu J, Yan H. Performance analysis of MIMO information time delay system under bandwidth cyber-attack and gaussian white noise. IEEE Transactions on Systems, Man, and Cybernetics: Systems, 2023, 53(4):2329-2338. (SCI源刊,中科院1区 TOP期刊

3Zhang X, Wu J, Zhan X S (詹习生通信作者), Han T, Yan H. Observer-based adaptive time-varying formation-containment tracking for multi-agent system with bounded unknown input. IEEE Transactions on Systems, Man, and Cybernetics: Systems2023, 53(3): 1479 - 1491. (SCI源刊,中科院1区 TOP期刊

4Du X, Zhan X S (詹习生通信作者), Wu J, Yan H. Effects of two-channel noise and packet loss on performance of information time delay systems. IEEE Transactions on Neural Networks and Learning Systems, 2022, DOI: 10.1109/TNNLS.2022.3230648 (SCI源刊,中科院1区 TOP期刊)

5Liu Z, Zhan X S (詹习生通信作者), Han T, Yan H. Distributed adaptive finite-time bipartite containment control of linear multi-agent systems. IEEE Transactions on Circuits and Systems--II: Express Briefs, 2022, 69(11): 4354-4358 (SCI源刊,中科院2区)

6Zhan H, Wu J, Zhan X S (詹习生通信作者), Han T, Yan H. Fixed-time bipartite containment control of high-order multi-agent systems in the signed graph. IEEE Transactions on Circuits and Systems-II: Express Briefs, 2023, 70(4): 1520-1524 (SCI源刊,中科院2区)

7Zhan X S (詹习生), Hao L L, Han T, Yan H C. Adaptive bipartite output consensus for heterogeneous multi-agent systems with quantized information: A fixed-time approach. Journal of the Franklin Institute, 2021, 358(14):7221-7236. (SCI源刊,中科院2区 TOP期刊)

8Zhan X S (詹习生), Hu J W, Wu J, Yan H C. Performance analysis method for NCSs with coding and quantization constraints. ISA Transactions, 2020, 107(12): 287-293 (SCI源刊,中科院2区 TOP期刊)

9Hu J W,Zhan X S (詹习生通信作者), Wu J. Analysis of optimal performance of MIMO networked control systems with encoding and packet dropout constraints. IET Control Theory & Applications, 2020,14(13): 1762-1768. (SCI源刊,中科院2区)

10Hao L L, Zhan X S (詹习生通信作者), Wu J, Yan H C. Fixed-time group consensus of nonlinear multi-agent systems via pinning control. International Journal of Control Automation and Systems, 2021, 19 (2) :200-2008. (SCI源刊,中科院3区)

11Hu X, Zhan X S (詹习生通信作者), Wu J, Yan H C. Performance limits of network delay systems based on bandwidth and packet loss constraints. Asian Journal of Control, 2022, 24(6): 3466-3474 (SCI源刊,中科院3区)

12Zhan X S (詹习生), Hu J W, Wu J, Yan H C. Performance analysis method for NCSs with coding and quantization constraints. ISA Transactions, 2020, 107(12): 287-293 (SCI源刊,中科院2区)

13Hu J W, Zhan X S (詹习生通信作者), Wu J, Yan H C. Optimal tracking performance of ncss with time-delay and encoding-decoding constraints. International Journal of Control Automation and Systems, 2020, 18 (4) : 1012-1022.(SCI源刊,中科院3区)

14Zhan X S (詹习生), Zhang W H, Wu J and Yan H. Performance analysis of NCSs under channel noise and bandwidth constraints. IEEE Access, 2020, 8: 20279-20288. (SCI源刊,中科院2区)

15Hu X, Zhan X S (詹习生), Wu J and Yan H. Performance of SIMO networked time-delay systems with encoding-decoding and quantization constraints. IEEE Access, 2020, 8: 55125-55134.  (SCI源刊,中科院2区)

16Zhan X S (詹习生), Cheng L L, Wu J, Modified tracking performance limitation of networked time-delay systems with two-channel constraints, Journal of the Franklin Institute, 2019, 356(12):6401-6418. (SCI源刊,中科院2区)

17Zhan X S (詹习生), Cheng L L, Wu J, Yang Q S. Optimal modified performance of MIMO networked control systems with multi-parameter constraints. ISA Transactions, 2019, 84(1): 111-117.(SCI源刊,中科院2区)

18Zhan X S (詹习生), Sun X X, Wu J, Han T. Optimal modified tracking performance for networked control systems with QoS constraint. ISA Transactions, 2016,65:109-115 (SCI源刊,中科院2区)

19Zhan X S (詹习生), Wu J, Jiang T, Jiang X W. Optimal performance of networked control systems under the packet dropouts and channel noise. ISA Transactions, 2015, 585):214-221.(SCI源刊,中科院2区)

20Zhan X S (詹习生), Sun X X, Li T, Wu J, Jiang X W. Optimal performance of networked control systems with bandwidth and coding constraints. ISA Transactions, 2015, 596):172-179.(SCI源刊,中科院2区)

21Zhan X S (詹习生), Guan Z H, Zhang X H, Yuan F S. Optimal tracking performance and design of networked control systems with packet dropout. Journal of the Franklin Institute, 2013, 350(10):3205-3216. (SCI源刊,中科院2区)

22L L Cheng, X S Zhan(詹习生,通信作者), J Wu . An optimal tracking performance of MIMO networked control systems with quantization and bandwidth constraints. Asian Journal of Control, 2019, 21(3):1377-1388 (SCI源刊,中科院3区)

23Zhan X S (詹习生), Zhou Z J, Wu J, Han T. Optimal modified tracking performance of time-delay systems with packet dropouts constraint. Asian Journal of control, 2017, 18(4):1508-1518. (SCI源刊,中科院3区)

24Zhan X S (詹习生), Guan Z H, Jiang T. Performance limitation of networked systems with network-induced delay and packet-dropout constraints. Asian Journal of Control, 2015, 17(6):2452-2459. (SCI源刊,中科院3区)

25Zhan X S (詹习生), Guan Z H, Zhang X H, Yuan F S. Best tracking performance of networked control systems based on communication constraints. Asian Journal of Control. 2014, 16(4): 1155-1163. (SCI源刊,中科院3区)

26Zhan X S (詹习生), Guan Z H, Zhang X H, Yuan F S. Optimal tracking performance of MIMO control systems with communication constraints and a code scheme. International Journal of Systems Science, 2015, 46(3):464-473. (SCI源刊,中科院3区)

27Zhan X S (詹习生), Guan Z H, Zhang X H, Yuan F S. Optimal performance of networked control systems over limited communication channels. Transactions of the Institute of Measurement and Control, 2014, 36(5): 637- 643. (SCI源刊,中科院4区)

28Zhan X S (詹习生), Guan Z H. Optimal performance of SISO discrete-time systems based on network-induced delay. European Journal of Control, 2013, 19(1):37-41. (SCI源刊,中科院4区)

29Wu Jie, Zhan X S (詹习生,通信作者), Zhang Xianhe, Han Tao. Performance limitation of networked systems with controller and communication filter co-design. Transactions of the Institute of Measurement and Control, 2018, 40(4): 1167-1176. (SCI源刊,中科院4区)

30Jiang X W, Zhan X S (詹习生,通信作者), Jiang Bo. Stability and Neimark-Sacker bifurcation analysis for a discrete single genetic negative feedback autoregulatory system with delay, Nonlinear Dynamics, 2014, 76(5): 1031-1039. (SCI源刊,中科院2区)

31Wu J, Sun X X, Zhan X S(詹习生,通信作者), Han T. Optimal tracking performance for networked control systems with quantization. Journal of the Franklin Institute, 2017,354(1):215-232. (SCI源刊,中科院2区)

32Wu J, Zhou Z J, Zhan X S(詹习生,通信作者), Yan H C, Ge M F. Optimal modified tracking performance for MIMO networked control systems with communication constraints. ISA Transactions, 2017, 68(3):14-21. (SCI源刊,中科院2区)

33Wu J, Zhan X S(詹习生,通信作者),Zhang X H, Jiang T, Han T. Optimal tracking performance of networked control systems with communication delays under channel input power constraint. Transactions of the Institute of Measurement and Control, 2017,39(9):1346–1354. (SCI源刊,中科院4区)

34Zhan X S (詹习生), Guan Z H, Liao R Q, Yuan F S. Optimal performance in tracking stochastic signal under disturbance rejection. Asian Journal of Control. 2012, 14(6): 1608–1616. (SCI源刊,中科院3区)

35Guan Z H, Zhan X S (詹习生), Feng G. Optimal tracking performance of MIMO discrete-time systems with communication constraints. International Journal of Robust and Nonlinear Control. 2012, 22(13):1429-1439.  (SCI源刊,中科院3区)

36Wu J, Zhan X S (詹习生,通信作者), Zhang X H, Gao H L. Stability and Hopf bifurcation analysis on a numerical discretization of distributed delay equation. ChinesePhysics Letters, 2012,29(5):0502031-4 SCI源刊)

37Sun F L, Guan Z H, Zhan X S (詹习生,通信作者), Yuan F S. Consensus of second-order and high-order discrete-time multi-agent systems with random networks. Nonlinear Analysis: Real World Applications, 2012, 13(5):1979-1990.SCI源刊)

38Sun X X, Wu J, Zhan X S(詹习生), Han T. Optimal modified tracking performance for MIMO systems under bandwidth constraint. ISA Transactions, 2016, 62(6):145-153 SCI源刊)

39Cai X S, Lin C, Liu L P, Zhan X S(詹习生). Inverse optimal control for strict-feedforward nonlinear systems with input delays. International Journal of Robust and Nonlinear Control, 2018, 28(8): 2976-2995. SCI源刊)

40Yan H C, Zhang H, Yang F W, Zhan X S(詹习生), Peng C. Distributed H∞ state estimation for a class of filtering networks with time-varying switching topologies and packet losses. IEEE Transactions on Systems, Man, and Cybernetics: Systems, 2018, 48(12): 2047-2057. SCI源刊)

41Yan H C, Zhang H, Yang F W, Zhan X S(詹习生). Event-triggered asynchronous guaranteed cost control for Markov-jump discrete-time neural networks with distributed delay and channel fading. IEEE Transactions on Neural Networks and Learning Systems, 2018, 29(8): 3588 - 3598. SCI源刊)

42詹习生关治洪吴杰张先鹤吴博多通道网络化系统跟踪性能极限控制理论及应用,2013, 30(4):503-507.(EI源刊)

43詹习生吴杰关治洪姜晓伟基于丢包和带宽限制网络化系统稳定性分析控制理论及应用, 2014, 31(8): 1111-1115.  (EI源刊)