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学者姓名:王鹏
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Abstract :
Lyapunov--Krasovskii functional (LKF) theory plays a significant role in formulating multifarious delay-dependent stability criteria for general systems with time delays. However, the existing delay-dependent results in the framework of LKF for delayed directed networks (DDNs) are generally dependent on the number A of nodes in the networks, which are inapplicable to networks with a large size due to the computational complexity of exponential growth. For handling this situation, an interesting property of the Kronecker product is discovered and summarized in this work. Then, by constructing the topology-dependent multiple LKF approach and an ameliorative combined switching strategy, a delay-dependent but A -independent pinning synchronization criterion is skillfully developed for the addressed switched delayed directed networks, where ``A -independent"" indicates that the synchronization criterion is independent of the number A of nodes. With the ameliorative combined switching strategy, different minimum dwell times are assured for each subnetwork, and none of the subnetworks are required to be synchronized in advance. Apart from that, a simple A -independent pinning synchronization criterion for nonswitched DNNs is also discussed. Finally, the applicability of the proposed pinning synchronization approach is verified through a simulation example.
Keyword :
ameliorative combined switching strategy ameliorative combined switching strategy pinning synchronization pinning synchronization switched directed delayed networks switched directed delayed networks topology-dependent multiple LKF topology-dependent multiple LKF
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| GB/T 7714 | Sang, Hong , Wang, Peng , Zhao, Ying et al. DELAY-DEPENDENT BUT \bfscrN-INDEPENDENT PINNING SYNCHRONIZATION CONTROL FOR SWITCHED DELAYED DIRECTED NETWORKS [J]. | SIAM JOURNAL ON CONTROL AND OPTIMIZATION , 2025 , 63 (2) : 699-726 . |
| MLA | Sang, Hong et al. "DELAY-DEPENDENT BUT \bfscrN-INDEPENDENT PINNING SYNCHRONIZATION CONTROL FOR SWITCHED DELAYED DIRECTED NETWORKS" . | SIAM JOURNAL ON CONTROL AND OPTIMIZATION 63 . 2 (2025) : 699-726 . |
| APA | Sang, Hong , Wang, Peng , Zhao, Ying , Nie, Hong , Fu, Jun , Yu, Shuanghe . DELAY-DEPENDENT BUT \bfscrN-INDEPENDENT PINNING SYNCHRONIZATION CONTROL FOR SWITCHED DELAYED DIRECTED NETWORKS . | SIAM JOURNAL ON CONTROL AND OPTIMIZATION , 2025 , 63 (2) , 699-726 . |
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In this article, we tackle the problem of analyzing dissipativity, via devising switching mechanisms, for switched positive Takagi-Sugeno (T-S) fuzzy systems with time-varying delay. To leverage the positivity properties of state, input, and output variables, a novel concept of dissipativity is developed, focusing on linear supply rates and linear copositive storage functionals. When state information is available, the state dependent switching mechanism satisfying a dwell time constraint is introduced dependent on the constructed time-varying multiple linear copositive storage functionals. This mechanism allows for solving the dissipativity issue for the entire system without imposing any solvability requirements on subsystems and reduces the switching frequency. In cases, where state information is unavailable, dissipativity is ensured by a dwell-time dependent switching mechanism. Further, all conditions guaranteeing the solvability of the problem are presented in the form of linear vector inequalities. Two simulation examples are finally offered, demonstrating that the proposed techniques are effective and superior.
Keyword :
Delays Delays Dissipativity analysis Dissipativity analysis dwell-time dwell-time Focusing Focusing Fuzzy systems Fuzzy systems Lyapunov methods Lyapunov methods Nonlinear systems Nonlinear systems Stability criteria Stability criteria state-dependent switching state-dependent switching switched positive systems switched positive systems Switches Switches Takagi-Sugeno model Takagi-Sugeno model time-varying delay time-varying delay Time-varying systems Time-varying systems Vectors Vectors
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| GB/T 7714 | Wang, Peng , Sang, Hong , Huang, Chuangxia et al. On Dissipativity-Preserving for Switched Positive Takagi-Sugeno Fuzzy Delayed Systems via Switching [J]. | IEEE TRANSACTIONS ON FUZZY SYSTEMS , 2025 , 33 (5) : 1605-1616 . |
| MLA | Wang, Peng et al. "On Dissipativity-Preserving for Switched Positive Takagi-Sugeno Fuzzy Delayed Systems via Switching" . | IEEE TRANSACTIONS ON FUZZY SYSTEMS 33 . 5 (2025) : 1605-1616 . |
| APA | Wang, Peng , Sang, Hong , Huang, Chuangxia , Cao, Jinde , Abdel-Aty, Mahmoud . On Dissipativity-Preserving for Switched Positive Takagi-Sugeno Fuzzy Delayed Systems via Switching . | IEEE TRANSACTIONS ON FUZZY SYSTEMS , 2025 , 33 (5) , 1605-1616 . |
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This investigation primarily centers on the reachable-set-based bumpless transfer control (BTC) for the synchronization of switched neutral-type neural networks (SNNNs). In order to mitigate the conservatism inherent in the traditional state-dependent switching strategies (SDSSs) and combined switching strategies (CSSs), an improved CSS leveraging the historical information of neuron states and neutral delay is developed. By constructing a time-dependent multiple Lyapunov-Krasovskii functional (TDMLF) technique, a less conservative criterion for reachable set estimation (RSE) is first established. In the subsequent, the established design framework is further employed by the BTC for the synchronization of SNNNs. The corresponding synchronization criterion is derived, which ensures that the resultant synchronization error influenced by bounded external inputs can be confined to an anticipated bounded set. Also, the underlying control bumps at switching instants during switching instants are effectively constrained to a specific level. Ultimately, the practicability and superiority of the proposed design framework are confirmed via two simulation examples.
Keyword :
bumpless transfer performance bumpless transfer performance improved combined switching strategy improved combined switching strategy reachable set estimation reachable set estimation switched neutral-type neural networks switched neutral-type neural networks synchronization control synchronization control
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| GB/T 7714 | Li, Fang , Sang, Hong , Wang, Peng et al. Bumpless Transfer Control for Synchronization of Switched Neutral-Type Neural Networks With a Reachable Set Strategy [J]. | INTERNATIONAL JOURNAL OF ROBUST AND NONLINEAR CONTROL , 2025 , 35 (6) : 2310-2323 . |
| MLA | Li, Fang et al. "Bumpless Transfer Control for Synchronization of Switched Neutral-Type Neural Networks With a Reachable Set Strategy" . | INTERNATIONAL JOURNAL OF ROBUST AND NONLINEAR CONTROL 35 . 6 (2025) : 2310-2323 . |
| APA | Li, Fang , Sang, Hong , Wang, Peng , Zhao, Ying , Ma, Yajing , Dimirovski, Georgi M. . Bumpless Transfer Control for Synchronization of Switched Neutral-Type Neural Networks With a Reachable Set Strategy . | INTERNATIONAL JOURNAL OF ROBUST AND NONLINEAR CONTROL , 2025 , 35 (6) , 2310-2323 . |
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This paper performs a finite-time analysis (FTA) and implements the finite-time anti-disturbance synchronization (FTADS) control for general switched delayed neural networks (SDNNs) in a continuous-time context. While the prevailing results for SDNNs typically mandate the finite-time stability of individual subnetworks, this investigation explores a more inclusive scenario in which all subnetworks of SDNNs may exhibit finite-time instability. To address this, an innovative and less conservative FTA framework is established by developing a novel time-dependent multiple Lyapunov-Krasovskii functional (TDMLF) approach and incorporating a ranged dwell time (RDT) switching strategy. For SDNNs influenced by multiple disturbances, a FTADS criterion is established within the proposed finite-time design framework, demonstrating that the relevant synchronization error can achieve the desired finite-time boundedness. In the end, the reliability and superiority of the presented FTA approach and anti-disturbance synchronization control technique are thoroughly substantiated via two demonstration examples.
Keyword :
Anti-disturbance synchronization Anti-disturbance synchronization Finite-time boundedness Finite-time boundedness Finite-time stability Finite-time stability Ranged dwell time Ranged dwell time Switched delayed neural networks Switched delayed neural networks
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| GB/T 7714 | Sang, Hong , Zheng, Wenlong , Liu, Yi et al. Finite-time stability and anti-disturbance synchronization for switched delayed neural networks using a ranged dwell time switching strategy [J]. | INFORMATION SCIENCES , 2025 , 718 . |
| MLA | Sang, Hong et al. "Finite-time stability and anti-disturbance synchronization for switched delayed neural networks using a ranged dwell time switching strategy" . | INFORMATION SCIENCES 718 (2025) . |
| APA | Sang, Hong , Zheng, Wenlong , Liu, Yi , Wang, Peng , Dimirovski, Georgi M. . Finite-time stability and anti-disturbance synchronization for switched delayed neural networks using a ranged dwell time switching strategy . | INFORMATION SCIENCES , 2025 , 718 . |
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This research concerns asymptotic stability and robust stability for switched positive Takagi-Sugeno (T-S) fuzzy systems subject to dwell-time constraints. The switched positive T-S fuzzy systems consisting full of unstable positive subsystems are considered in this article. In order to handle this case, a time-dependent multiple copositive Lyapunov function method is developed together with a ranged dwell time switching policy. Then, the novel stability criteria with less conservativeness are derived for the investigative system, and the corresponding result is simultaneously extended to interval uncertainty systems concerning robust stability. Moreover, all criteria are presented in the form of linear vector inequalities. Eventually, two illustrative examples are utilized to verify the effectiveness of the proposed analysis framework. © 2024 Asian Control Association.
Keyword :
Fuzzy systems Fuzzy systems Lyapunov functions Lyapunov functions Lyapunov methods Lyapunov methods Stability criteria Stability criteria
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| GB/T 7714 | Zhao, Yunting , Wang, Peng , Sang, Hong et al. Novel stability criteria for switched positive T-S fuzzy systems with all modes unstable [C] . 2024 : 533-538 . |
| MLA | Zhao, Yunting et al. "Novel stability criteria for switched positive T-S fuzzy systems with all modes unstable" . (2024) : 533-538 . |
| APA | Zhao, Yunting , Wang, Peng , Sang, Hong , Sun, Yaowei . Novel stability criteria for switched positive T-S fuzzy systems with all modes unstable . (2024) : 533-538 . |
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高空舱进气环境压力模拟控制系统在发动机开展过渡态试验中存在强气流扰动及大量随机噪声干扰,为此,提出新型非线性状态误差反馈函数xal及在结构上引入总扰动状态变量反馈环节来设计扩张状态观测器算法(记作xal-ESO),并以此提出基于xal-ESO的高空舱进气环境压力模拟新型自抗扰控制方法.借助数值仿真对比所提出的xal-ESO与常见ESO在状态与总扰动方面的估计能力,结果表明xal-ESO能有效抑制系统输出噪声并取得较好的估计品质.基于系统核心设备模型搭建高空舱进气环境压力模拟仿真平台并进行工程试验,对比了基于xal-ESO的自抗扰控制与当前工程中使用的线性自抗扰控制的进气环境压力控制效果,试验结果显示线性自抗扰控制方法受噪声影响明显,而所提出的新型自抗扰控制方法在发动机过渡态试验中跟踪进气压力时超调量降低了58.70%,稳态误差降低了95.71%,表明该方法能够有效提升高空舱进气环境压力模拟效果,提升发动机过渡态性能评价的准确性.
Keyword :
压力模拟 压力模拟 扩张状态观测器 扩张状态观测器 自抗扰控制 自抗扰控制 过渡态试验 过渡态试验 非线性状态误差反馈 非线性状态误差反馈 高空舱 高空舱
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| GB/T 7714 | 李婉如 , 张和洪 , 王鹏 et al. 高空舱进气环境压力模拟新型自抗扰控制 [J]. | 推进技术 , 2024 , 45 (8) : 246-256 . |
| MLA | 李婉如 et al. "高空舱进气环境压力模拟新型自抗扰控制" . | 推进技术 45 . 8 (2024) : 246-256 . |
| APA | 李婉如 , 张和洪 , 王鹏 , 翟超 , 张松 , 但志宏 et al. 高空舱进气环境压力模拟新型自抗扰控制 . | 推进技术 , 2024 , 45 (8) , 246-256 . |
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This work is concerned with the L-1 bumpless transfer control issue for switched positive delayed systems on finite horizons. A bumpless transfer input scheme and a state-dependent limited frequency switching scheme, induced by the transient control input discontinuities during controller switching and by the frequent switching for multiple subsystems, respectively, are jointly introduced. The main advantages of the presented schemes are that the amplitude of the control input discontinuities and the frequent switches are all reduced by the dual design of bumpless transfer controllers for subsystems and a state-dependent limited frequency switching scheme. By utilizing the multiple linear copositive Lyapunov functionals, sufficient conditions are also offered so as to achieve the desirable closed-loop performances, including positivity, finite-time boundedness, bumpless transfer property and a prescribed L-1-gain property. Finally, a practical example is borrowed which validates the proposed schemes.
Keyword :
bumpless transfer bumpless transfer finite-time L-1-gain performance finite-time L-1-gain performance state-dependent switching state-dependent switching switched positive delayed systems switched positive delayed systems
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| GB/T 7714 | Wang, Peng , Lin, Pin , Zhang, Hehong et al. Finite-time L1 bumpless transfer control for switched positive delayed systems: A state-dependent limited frequency switching scheme [J]. | INTERNATIONAL JOURNAL OF ROBUST AND NONLINEAR CONTROL , 2024 , 34 (13) : 9166-9181 . |
| MLA | Wang, Peng et al. "Finite-time L1 bumpless transfer control for switched positive delayed systems: A state-dependent limited frequency switching scheme" . | INTERNATIONAL JOURNAL OF ROBUST AND NONLINEAR CONTROL 34 . 13 (2024) : 9166-9181 . |
| APA | Wang, Peng , Lin, Pin , Zhang, Hehong , Zhao, Ying , Sang, Hong , Dimirovski, Georgi M. . Finite-time L1 bumpless transfer control for switched positive delayed systems: A state-dependent limited frequency switching scheme . | INTERNATIONAL JOURNAL OF ROBUST AND NONLINEAR CONTROL , 2024 , 34 (13) , 9166-9181 . |
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In this paper, a family of amplitude limited controllers and a hysteresis switching paradigm, for switched positive systems with time-varying delays, are simultaneously determined to achieve strict (q, r)-alpha-dissipativity. The concept of strictly (q, r)-alpha-dissipative, induced by linear-type dissipative inequalities, is introduced. The main feature of the presented method lies in two aspects. The first one is that the magnitude of controller discontinuities, at the occurrence of switching, is here restricted. The other one is that the high switching frequency is refrained commonly the appearance of in state-dependent switching schemes. Moreover, dissipativity analysis as well as feedback dissipativity are taken into account. Novel criteria are derived for the considered systems to be dissipativity by resorting to multi-linear copositive storage functionals. Eventually, the validity and superiority of the presented control strategy are demonstrated through two illustrative examples.
Keyword :
Bumpless transfer control Bumpless transfer control Dissipativity analysis Dissipativity analysis Hysteresis switching scheme Hysteresis switching scheme Switched positive delayed systems Switched positive delayed systems
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| GB/T 7714 | Wang, Peng , Lin, Pin , Sang, Hong et al. Bumpless transfer control for switched positive time-delay systems with linear-type dissipative inequalities [J]. | JOURNAL OF THE FRANKLIN INSTITUTE-ENGINEERING AND APPLIED MATHEMATICS , 2024 , 361 (15) . |
| MLA | Wang, Peng et al. "Bumpless transfer control for switched positive time-delay systems with linear-type dissipative inequalities" . | JOURNAL OF THE FRANKLIN INSTITUTE-ENGINEERING AND APPLIED MATHEMATICS 361 . 15 (2024) . |
| APA | Wang, Peng , Lin, Pin , Sang, Hong , Zhang, Louyue , Dimirovski, Georgi M. . Bumpless transfer control for switched positive time-delay systems with linear-type dissipative inequalities . | JOURNAL OF THE FRANKLIN INSTITUTE-ENGINEERING AND APPLIED MATHEMATICS , 2024 , 361 (15) . |
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This research concerns asymptotic stability and robust stability for switched positive Takagi-Sugeno (T-S) fuzzy systems subject to dwell-time constraints. The switched positive T-S fuzzy systems consisting full of unstable positive subsystems are considered in this article. In order to handle this case, a time-dependent multiple copositive Lyapunov function method is developed together with a ranged dwell time switching policy. Then, the novel stability criteria with less conservativeness are derived for the investigative system, and the corresponding result is simultaneously extended to interval uncertainty systems concerning robust stability. Moreover, all criteria are presented in the form of linear vector inequalities. Eventually, two illustrative examples are utilized to verify the effectiveness of the proposed analysis framework.
Keyword :
dwell time dwell time stability stability Switched positive T-S fuzzy systems Switched positive T-S fuzzy systems time-dependent multiple copositive Lyapunov function time-dependent multiple copositive Lyapunov function
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| GB/T 7714 | Zhao, Yunting , Wang, Peng , Sang, Hong et al. Novel stability criteria for switched positive T-S fuzzy systems with all modes unstable [J]. | 2024 14TH ASIAN CONTROL CONFERENCE, ASCC 2024 , 2024 : 533-538 . |
| MLA | Zhao, Yunting et al. "Novel stability criteria for switched positive T-S fuzzy systems with all modes unstable" . | 2024 14TH ASIAN CONTROL CONFERENCE, ASCC 2024 (2024) : 533-538 . |
| APA | Zhao, Yunting , Wang, Peng , Sang, Hong , Sun, Yaowei . Novel stability criteria for switched positive T-S fuzzy systems with all modes unstable . | 2024 14TH ASIAN CONTROL CONFERENCE, ASCC 2024 , 2024 , 533-538 . |
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The bumpless transfer (BT) control issue for switched positive systems (SPSs) with dissipativity is investigated in this brief. The aim is to achieve dissipativity of the SPSs while cutting down the unwanted big jumps of control input at switching points. The alleviation level of the control input jumps is described by the BT performance. By the multi-linear copositive storage functions methods, the switching laws and controllers are designed to solve the dissipativity-based BT control issue of SPSs in continuous-time and discrete-time. Under the established controllers and switching logics, subsystems are permitted not to ensure the dissipativity as well as the BT performance. Finally, a simulation case study of muscle relaxants in surgery reveals the superiority of the provided control method.
Keyword :
bumpless transfer bumpless transfer dissipativity dissipativity multi-linear copositive Lyapunov functions method multi-linear copositive Lyapunov functions method Switched positive system Switched positive system
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| GB/T 7714 | Zhao, Ying , Feng, Zhe , Wang, Peng . Dissipativity-Based Bumpless Transfer Control for Switched Positive Systems [J]. | IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS II-EXPRESS BRIEFS , 2024 , 71 (12) : 4954-4958 . |
| MLA | Zhao, Ying et al. "Dissipativity-Based Bumpless Transfer Control for Switched Positive Systems" . | IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS II-EXPRESS BRIEFS 71 . 12 (2024) : 4954-4958 . |
| APA | Zhao, Ying , Feng, Zhe , Wang, Peng . Dissipativity-Based Bumpless Transfer Control for Switched Positive Systems . | IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS II-EXPRESS BRIEFS , 2024 , 71 (12) , 4954-4958 . |
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