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陈武华，博士，教授，博士生导师，TCCT随机系统理论与控制学组委员,“广西科学”第七届编委会委员。是广西第九届青年科技奖获得者，并是 2005 年度教育部自然科学一等奖“脉冲动力系统稳定与控制”的完成人之一。2012 年获广西自然科学三等奖。入选 2014 、2015、2016、2017、2018、2019年度爱思唯尔中国高被引****榜单（控制与系统工程）。获2015年度、2016年度广西大学首届和第二届十佳导师，是建校90周年●广西大学突出贡献者。在“IEEE Transactions on Automatic control\"、“Automatica”、“IEEE Transactions on Neural Networks”等国内外重要和权威期刊发表SCI收录论文90余篇，论文他引 3000 多篇次。
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微分方程稳定性理论、脉冲混合系统的分析与控制、复杂网络控制与同步、奇异摄动系统与网络化控制系统分析与综合
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1. 国家自然科学基金面上项目：基于增维切换建模技术的脉冲滞后系统稳定与控制研究（**），2020.01-2023.12，主持。2. 广西自然科学基金重点项目：具有区间脉冲时滞的脉冲控制分析与设计研究2019.01-2022.12，主持。3. 国家自然科学基金重点项目：混杂非线性系统的性能分析与控制设计及应用（No.**）,2017.1-2021.12,247万元，子课题“带时滞的混杂非线性系统的性能分析与控制”负责人。4. 国家自然科学基金面上项目：半线性反应扩散系统脉冲控制及其应用研究（No.**)，2016.1-2019.12，75.5万元，主持。5. 广西自然科学基金项目：连续动态和离散动态均非渐近稳定的脉冲系统稳定与镇定研究（No.2015GXNSFAA139003），2015.9-2018.8，5万元，主持。6. 国家自然科学基金项目：具有脉冲效应的奇异摄动系统稳定与控制研究（No. **）, 2012.01-2015.12, 40万元，主持。7. 广西自然科学基金重点项目：网络环境下非线性奇异摄动系统稳定与镇定研究（No.2013GXNSFDA019003），2013.4-2016.3，30万元，主持。8. 广西自然科学基金项目：具有可变更新区间脉冲观测器研究（No.2011GXNSFA018141），2011.03-2014.03，3.5万元, 主持。9. 国家自然科学基金项目：脉冲时滞系统稳定与控制研究及其在网络化控制系统中的应用（No.**）， 2009.01-2011.12,20万元,主持。10. 广西青年基金项目：随机扰动的马尔可夫切换时滞系统的分析与控制（No.**），2005.07-2008.07，3万元, 主持。
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[1]Chen W-H, Chen J, Zheng WX. Delay-dependent stability and hybrid -gain analysis of linear impulsive time-delay systems: A continuous timer-dependent Lyapunov-like functional approach. Automatica. 2020; 120: 109119.[2]Chen W-H, Chen J, Lu X. Effects of impulse delays on Lp-stability of a class of nonlinear time-delay systems. Journal of the Franklin Institute, 2020, 357(12): 7983-8007.[3]Chen W-H, He H, Lu X. Multi-rate sampled-data composite control of linear singularly perturbed systems. Journal of the Franklin Institute, 2020, 357(4): 2028-2048.[4]Chen W-H, Deng X, Lu X. Impulsive synchronization of two coupled delayed reaction–diffusion neural networks using time-varying impulsive gains. Neurocomputing, 2020, 377: 334-344. [5]Chen W-H, Ruan Z, Zheng W X. Stability and L-2-gain analysis for linear time-delay systems with delayed impulses: an augmentation-based switching impulse approach. IEEE Transactions on Automatic Control, 2019, 64(10): 4209-4216.[6]Chen W-H, Liu Y, Zheng W X. Synchronization analysis of two-time-scale nonlinear complex networks with time-scale-dependent coupling. IEEE Transactions on Cybernetics, 2019, 49(9): 3255-3267. [7]Zhang J, Chen W-H, Lu X. Robust fuzzy stabilization of nonlinear time-delay systems subject to impulsive perturbations. Communications in Nonlinear Science and Numerical Simulation, 2019, 80: 104953.[8]Chen W-H, Cheng L, Lu X. Observer-based feedback stabilization of Lipschitz nonlinear systems in the presence of asynchronous sampling and scheduling protocols. Nonlinear Analysis: Hybrid Systems, 2019, 33: 282-299. [9]Luo S, Deng F, Chen W-H. Dynamic event-triggered control for linear stochastic systems with sporadic measurements and communication delays. Automatica, 2019, 107: 86–94.[10]Wang Yan-Wu, Yang Wu, Liu Xiao-Kang, Chen Wu-Hua. Dissipativity of Singularly Perturbed Lur’e Systems. IEEE Transactions on Circuits and Systems II: Express Briefs, 2019, 66(9): 1532-1536. [11]Wei L, Chen W-H, Luo S. Stabilization of discrete-time switched linear systems with time-varying delays via nearly-periodic impulsive control. Journal of the Franklin Institute, 2019, 356(16): 8996-9022.[12]Chen W-H, Lu X, Zong G. Impulsive stabilization for linear neutral-type time-delay systems. International Journal of Robust and Nonlinear Control, 2018, 28(17): 5618–5633.[13]Lu X, Chen W-H, Ruan Z, Huang T. A new method for global stability analysis of delayed reaction–diffusion neural networks. Neurocomputing, 317 (2018): 127–136.[14]Li X, Chen W-H, Zheng W X. Instability and unboundedness analysis for impulsive differential systems with applications to Lurie control systems. International Journal of Control, Automation and Systems, 2018, 16(4): 1521-1531.[15]Ruan Z, Chen W-H, Lu X. Dual-stage periodic event-triggered output-feedback control for linear systems. ISA Transactions, 2018, 76: 57-66.[16]Lu X. Chen W-H, Xue F. Impulsive natural observers for vector second-order Lipschitz non-linear systems. IET Control Theory & Applications, 2018, 12(9): 1349-1356.[17]Luo S, Deng F, Chen W-H. Multiple switching-time-dependent discretized Lyapunov functions/functionals methods for stability analysis of switched time-delay stochastic systems. Journal of the Franklin Institute, 2018, 355(2): 949-964.[18]Luo S, Deng F, Chen W-H. Unified dwell time–based stability and stabilization criteria for switched linear stochastic systems and their application to intermittent control. International Journal of Robust and Nonlinear Control 2018, 28(16): 2014–2030.[19]Liu L, Chen W-H, Lu X. Impulsive H∞ synchronization for reaction-diffusion neural networks with mixed delays. Neurocomputing, 2018, 272: 481-494.[20]Chen W-H，Ruan Z, Zheng W X. Stability and L2 -gain analysis for impulsive delay systems:an impulse-time-dependent discretized Lyapunov functional method. Automatica, 2017, 86, 129-137.[21]Yang W, Wang Y-W, Xiao J-W, Chen W-H. Modulus consensus in a network of singularly perturbed systems with collaborative and antagonistic interactions. International Journal of Control, 2017, 90(12): 2667-2676. [22]Xiao J-W, Hu M-J, Wang Y-W, Chen W-H. Impulsive positive observers and dynamic output feedback stabilization of positive linear continuous systems. International Journal of Robust and Nonlinear Control 2017, 27: 2275–2291. [23]Luo S, Deng F, Chen W-H. Pointwise-in-space stabilization and synchronization of a class of reaction–diffusion systems with mixed time delays via aperiodically impulsive control. Nonlinear Dynamics, 2017, 88(4): 2899–2914.[24]Chen W-H，Ding Kui, Lu X. Disturbance-observer-based control design for a class of uncertain systems with intermittent measurement. Journal of the Franklin Institute, 2017, 354(13): 5266-5279.[25]Chen W-H，Zheng W X, Lu X. Impulsive stabilization of a class of singular systems with time-delays. Automatica, 2017, 83: 28–36. [26]Liu L, Chen W-H, Lu X. Aperiodically intermittent H∞ synchronization for a class of reaction-diffusion neural networks. Neurocomputing, 2017, 222:105–115. WOS:011 IDS: EG0RY[27]Chen W-H, Luo S, Zheng W X. Sampled-data distributed H∞ control of a class of 1-D parabolic systems under spatially point measurements. Journal of the Franklin Institute, 2017, 354(1): 197-214. [28]Chen W-H, Liu L, Lu X. Intermittent synchronization of reaction–diffusion neural networks with mixed delays via Razumikhin technique. Nonlinear Dynamics, 2017, 87(1): 535-551.[29]Chen W-H*, Luo S, Zheng W X. Generating globally stable periodic solutions of delayed neural networks with periodic coefficients via impulsive control. IEEE Transactions on Cybernetics, 2017,47(7):1590-1603.[30]Chen W-H*, Jiang Renhong, Xiaomei Lu. H∞ control of linear singular time-delay systems subject to impulsive perturbations. IET Control Theory and Applications, 2017, 11(3): 420-4282017.02WOS:013[31]Chen W-H*, Zhong J, Zheng W X. Delay-independent stabilization of a class of time-delay systems via periodically intermittent control. Automatica, 2016, 71: 89-97. SCI: DT1IA[32]Chen W-H*, Luo S, Zheng W X. Impulsive synchronization of reaction-diffusion neural networks with mixed delays and its application to image encryption. IEEE Transactions on Neural Networks and Learning Systems, 2016, 27(12): 2696-2710.[33]Chen W-H, Yang W, Zheng W X. Adaptive impulsive observers for nonlinear systems: revisited[J]. Automatica, 2015, 61: 232-240. SCI: CT6MI[34]Chen W-H, Luo S, Lu X. Multistability in a class of stochastic delayed Hopfield neural networks. Neural Networks, 2015.18: 52-61. SCI: CL1WO[35]Chen W-H, Jiang Z, Lu X, Luo S. H∞ synchronization for complex dynamical networks with coupling delays using distributed impulsive control. Nonlinear Analysis: Hybrid Systems, 2015, 17: 111-127.[36]Wei L, Chen W-H, Huang G. Globally exponential stabilization of neural networks with mixed time delays via impulsive control. Applied Mathematics and Computation, 2015, 260 (1): 10-26.[37]Chen W-H, Lu X, Zheng W X. Impulsive stabilization and impulsive synchronization of discrete-time delayed neural networks. IEEE Transactions on Neural Networks and Learning Systems, 2015, 26(4): 734-748. SCI: CE4YH[38]Liu C, Chen W-H. Guaranteed cost control of linear uncertain discrete-time impulsive systems. Transactions of the Institute of Measurement and Control, 2015, 37(1): 33-39. [39]Chen W-H, Wei C, Lu X. Stochastic finite-time stabilization for a class of nonlinear Markovian jump stochastic systems with impulsive effects, Journal of Dynamic Systems, Measurement, and Control, 2015, 137: 044501-1.[40]Chen W-H, Wang Z, Wei D, Lu X. Robust sampled-data H∞ control of uncertain singularly perturbed systems using time-dependent Lyapunov functionals. International Journal of Systems Science, 2015,46(15): 2832-2852..[41]Wei L, Chen, W-H. Global exponential stability of a class of impulsive neural networks with unstable continuous and discrete dynamics. Neurocomputing, 2015,147, 225-234. [42]Huang G-J, Chen W-H. A revisit to the design of switched observers for switched linear systems with unknown inputs. International Journal of Control, Automation and Systems, 2014, 12(5): 954-962.[43]Chen W-H, Jiang Z, Zhong J, Lu X. On designing decentralized impulsive controllers for synchronization of complex dynamical networks with nonidentical nodes and coupling delays. Journal of the Franklin Institute, 2014, 351(8): 4084-4110.[44]Chen W-H, Zhong J, Jiang Z, Lu X. Periodically intermittent stabilization of delayed neural networks based on piecewise lyapunov functions/functional. Circuits, Systems and Signal Process, 2014, 33 (12): 3757–3782.[45]Chen W-H, Wei D, Lu X. Global exponential synchronization of nonlinear time-delay Lur’e systems via delayed impulsive control. Communications in Nonlinear Science and Numerical Simulation, 2014, 19(9): 3298-3312.[46]Chen W-H, Yang W, Lu X. Impulsive observer-based stabilisation of uncertain linear systems. IET Control Theory Appl., 2014, 8( 3): 149–159.[47]Chen W-H, Wei D, Lu X. Exponential stability of a class of nonlinear singularly perturbed systems with delayed impulses. Journal of the Franklin Institute, 2013, 350(9): 2678-2709 (**) SCI 214XE[48]Chen W-H, Wei D, Zheng W X. Delayed impulsive control of Takagi-Sugeno fuzzy delay systems. IEEE Transactions on Fuzzy Systems, 2013, 21(3): 516-526. (**) SCI 157WM[49]Chen W-H, Lu X. Comments on “Designing a novel adaptive impulsive observer for nonlinear continuous systems using LMIs”. IEEE Transactions on Circuits and Systems–I: Regular Papers, 2013, 60(4): 1094-1096. (**) SCI 118EJ[50]Chen W-H, Li D-X, Lu X. Impulsive observers with variable update intervals for Lipschitz nonlinear time-delay systems. International Journal of System Sciences, 2013, 44(10): 1934-1947. (**) SCI: 159BO[51]Chen W-H, Yuan G, Zheng W X. Robust stability of singularly perturbed impulsive systems under nonlinear perturbation. IEEE Transactions on Automatic Control, 2013, 58(1): 168-174. (**) SCI：062DC [52]Chen W-H，Wang Z, Lu X. On sampled-data control for master-slave synchronization of chaotic Lur'e Systems. IEEE Transactions on Circuits and Systems–II: Express Briefs, 2012, 59(8)：515-519. SCI：993FT[53]Chen W-H, Zheng W X. An improved stabilization method for sampled-data control systems with control packet loss. IEEE Transactions on Automatic Control, 2012, 57(9): 2378-2384. SCI: 996PR[54]Lu X, Chen W-H, Du R. Stability analysis of delayed cellular neural networks with impulsive effects. IMA Journal of Mathematical Control and Information, 2011, 28(4): 487−506. SCI 859IC[55]Chen W-H, Li D-X, Lu X. Impulsive functional observers for linear systems. International Journal of Control, Automation, and Systems, 2011, 9(5):987-992. SCI 828KT[56]Chen W-H, Zheng W X. Input-to-state stability for networked control systems via an improved impulsive system approach. Automatica, 2011, 47(4): 789–796. SCI 755VT[57]Chen W-H, Zheng W X. Exponential stability of nonlinear time-delay systems with delayed impulse effects. Automatica, 2011, 47(5): 1075-1083. SCI 762SU[58]Chen W-H, Zheng W X. Delay-independent minimum dwell time for exponential stability of uncertain switched delay systems. IEEE Transactions on Automatic Control, 2010, 55(10): 2406-2413. SCI 669PL[59]Chen W-H, Yang S-T, Lu X. Exponential stability and exponential stabilization of singularly perturbed stochastic systems with time-varying delay. International Journal of Robust and Nonlinear Control, 2010, 20(18): 2021–2044. SCI 694QT[60]Chen W-H, Zheng W X. A new method for complete stability analysis of cellular neural networks with time delay. IEEE Transactions on Neural Networks, 2010, 21(7): 1126-1139. Regular Paper SCI 652AW[61]Chen W-H, Chen F, Lu X. Exponential stability of a class of singularly perturbed stochastic time-delay systems with impulse effect. Nonlinear Analysis Series B: Real World Applications, 2010, 11 (5): 3463-3478. SCI 644OZ[62]Chen W-H, Zheng W X. Robust stability analysis for stochastic neural networks with time-varying delay. IEEE Transactions on Neural Networks, 2010, 21(3): 508-514. SCI 562HH[63]Chen W-H, Zheng W X. Input-to-state stability and integral Input-to-state stability of nonlinear impulsive systems with delays. Automatica, 2009, 45(6): 1481-1488. SCI 460PL[64]Chen W-H, Zheng W X. Delay-dependent stochastic stability and H∞-control of uncertain neutral stochastic systems with time delay. IEEE Transactions on Automatic Control, 2009, 54(7): 1660-1667. SCI 471EK[65]Chen W-H, Zheng W X. Global exponential stability of impulsive neural networks with variable delay: an LMI approach. IEEE Transactions on Circuits and Systems–I: Regular Papers, 2009, 56(6)：1248-1259 SCI 463MB[66]Chen W-H, Zheng W X. Robust stability and H∞-control of uncertain impulsive systems with time-delay. Automatica, 2009, 45 (1): 109-117. SCI 400MY[67]Chen W-H, Zheng W X. Improved delay-dependent asymptotic stability criteria for delayed neural networks. IEEE Transactions on Neural Networks, 2008, 19(12): 2154-2161. SCI 381OD[68]Chen W-H, Zheng W X. On global asymptotic stability of Cohen-Grossberg neural networks with variable delays. IEEE Transactions on Circuits and Systems–I: Regular Papers, 2008, 55(10): 3145-3159. SCI 378YO[69]Chen W-H, Lu X. Impulsive synchronization of chaotic Lur'e systems via partial states. Physics Letter A, 2008, 372 (23): 4210–4216. SCI 311AK[70]Chen W-H, Wang J-G, Tang Y-J, Lu X. Robust H∞ control of uncertain linear impulsive stochastic systems. International Journal of Robust and Nonlinear Control, 2008, 18 (13): 1348–1371. SCI 342FJ[71]Chen W-H, Lu X. Mean square stability of uncertain stochastic delayed neural networks, Physics Letter A, 2008, 372(7): 1061-1069, SCI 272UA [72]Chen W-H, Zheng W X. Delay-dependent robust stabilization for uncertain neutral systems with distributed delays, Automatica, 2007, 43(1): 95-104. SCI [73]Chen W-H, Lu X, Guan Z-H, Zheng W X. Asymptotic stability in a neutrall delay differential system with variable delays. SIAM Journal on Mathematical Analysis, 2006, 37(5): 1522–1534. SCI 023AX[74]Chen W-H, Zheng W X. Asymptotic stability of a class of neural networks with distributed delays. IEEE Transactions on Circuits and Systems–I: Regular Papers, 2006, 53(3), 644-652. SCI 022KO[75]Chen W-H, Lu X, Guan Z-H, Zheng W X. Delay-Dependent Exponential Stability of Neural Networks with Variable Delay: An LMI Approach. IEEE Transactions on Circuits and Systems–II: Express Briefs, 2006, 53(9), 837- 842. SCI[76]Chen W-H, Zheng W X. On Improved Robust Stabilization of Uncertain Systems with Unknown Input Delay. Automatica, 2006, 42(6): 1067-1072. SCI 047VA[77]Chen W-H, Lu X, Liang D-Y. Global Exponential stability for discrete-time neural networks with variable delays. Physics Letter A, 2006, 358(3), 186-198. SCI[78]Chen W-H, Lu X. New delay-dependent exponential stability criteria for neural networks with variable delays. Physics Letter A, 2006, 351(1-2): 53-58. SCI 012SE[79]Lu X, Chen W-H, Weiwei Song. Exponential stability for a class of switched systems with stochastic perturbation. Dynamics of Continuous, Discrete and Impulsive Systems, Series A-Mathematical Analysis, 13: 784-791 Part 2 Suppl. S, FEB 2006, 2005, 3: 784-791. SCI 035GW[80]Chen W-H, Guan Z-H, Lu X, Xu Y. Exponential stability of singularly perturbed stochastic systems with delay, Dynamics of Continuous, Discrete and Impulsive Systems, Series B: Applications and Algorithms. 2005, 12(5-6): 701-716. SCI[81]Guan Z-H, Chen W-H, Xu J-X. Delay-dependent stability and stabilizability of uncertain jump bilinear stochastic systems with mode-dependent time-delays, International Journal of System Science, 2005, 36(5): 275-285. SCI 923BL[82]Chen W-H, Guan Z-H, Lu X. Delay-dependent exponential stability of uncertain stochastic systems with multiple delays: an LMI approach, Systems & Control Letters, 2005, 54(6), 547-555. SCI 926FL, EI [83]Chen W-H, Guan Z-H, Lu X. Passive Control Synthesis for Uncertain Markovian Jump Linear Systems with Multipe Mode-dependent Time -delays. Asian Journal of Control, 2005，7 (2): 135-143. SCI 942RB, EI .[84]Chen W-H, Guan Z-H, Lu X. Delay-dependent guaranteed cost control for uncertain discrete-time systems with both state and input delays. Journal of the Franklin Institute, 2004，341(5)：419-430. SCI 851JZ, EI [85]Chen W-H, Lu X. Asymptotic stability in perturbed delay difference systems. Journal of Mathematical Analysis and Applications, 2004，299(1): 261-272. SCI 861TN[86]Chen W-H, Guan Z-H, Lu X. Delay-dependent output feedback stabilization of Markovian jump system with time-delay. IEE Proceedings–Control Theory and Applications, 2004, 151(5): 561-566. SCI 877CM, EI [87]Chen W-H, Guan Z-H, Lu X. Delay-dependent exponential stability of neural networks with variable delays. Physics Letter A, 2004, 326(5-6): 355-363. SCI 829HJ[88]Chen W-H, Guan Z-H, Lu X. Delay-dependent output feedback guaranteed cost control for uncertain time-delay systems. Automatica, 2004, 40(7): 1263-1268. SCI 827MO, EI [89]Chen W-H, Guan Z-H, Yu P. Delay-dependent stability and H∞ control of uncertain discrete-time Markovian jump systems with mode-dependent delays, Systems & Control Letters, 2004, 52(5): 361-376. SCI 841UJ, EI [90]Chen W-H, Guan Z-H. Uniform asymptotic stability for perturbed neutral delay differential equations, Journal of Mathematical Analysis and Applications, 2004, 291(2): 578-595. SCI 800IE[91]Chen W-H, Xu J-X, Guan Z-H. Guaranteed cost control for uncertain Markovian jump systems with mode-dependent delays. IEEE Transactions on Automatic Control, 2003, 48(12), 2270-2277. SCI 757TJ, EI [92]Chen W-H, Guan Z-H, Lu X. Delay-dependent guaranteed cost control for uncertain discrete-time systems with delay. IEE Proceedings–Control Theory and Applications, 2003, 150(4): 412-416. SCI 724JN, EI
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