相關主題
商品描述
Networked switched system has emerged as an essential system model in the field of control due to its accurate reflection of the wide-area distribution and typical switching characteristics of increasingly sophisticated controlled objects in engineering practice. The openness of communication networks, the limitation of communication resources, and the complexity of switching behaviors make it a challenging task to ensure the steady-state and transient performance of the output regulation of networked switched systems.
This book proposes several novel methodologies for output regulation of networked switched systems from the perspective of both steady-state and transient performance. The core features of our approaches are fourfold: i) Without imposing stability requirements on individual subsystems and all switching instants, a series of innovative dwell-time switching technologies are established to handle the issue of output regulation for networked switched systems with severely unstable dynamics under event-triggering strategies in the presence of cyber attacks. ii) Taking into account switching rules and cyber attack parameters within the event-triggered control framework, event detection conditions, modal matching conditions, and event waiting conditions are constructed, and a series of new event-triggering mechanisms are proposed to effectively enhance network resource utilization and secure steady-state performance of networked switched systems. iii) Typical cyber attacks have unique consequences on the secure steady-state performance of networked switched systems with severely unstable dynamics due to the short activation time of a single subsystem and the necessity to relay the switching signal through the network. To this purpose, the consecutive asynchronous switching behaviors of the subsystem or controller resulting from a long-duration DoS attack or an integrity deception attack incorporating switching signal tampering are investigated. iv) To deal with the transient performance fluctuations of the closed-loop system caused by factors such as mismatch switching between the subsystem and the corresponding controller, data update at event-triggering instants, cyber attack blocking and tampering of transmitted data, etc., bumpless transfer control strategies are formulated in the interpolation type and multi-source type, balancing the transient and steady-state performances of the output regulation of networked switched systems. This book presents these topics in a systematic way, which is of tremendous importance to both theoretical research and practical applications involving switched systems.
商品描述(中文翻譯)
網路交換系統已成為控制領域中一個重要的系統模型,因為它準確反映了工程實踐中日益複雜的受控對象的廣域分佈和典型切換特性。通訊網路的開放性、通訊資源的限制以及切換行為的複雜性,使得確保網路交換系統的穩態和瞬態輸出調節性能成為一項具有挑戰性的任務。
本書從穩態和瞬態性能的角度提出了幾種針對網路交換系統輸出調節的新方法。我們方法的核心特點有四個:一是,在不對個別子系統和所有切換時刻施加穩定性要求的情況下,建立了一系列創新的停留時間切換技術,以處理在網路攻擊存在下,事件觸發策略下具有嚴重不穩定動態的網路交換系統的輸出調節問題。二是,考慮到事件觸發控制框架內的切換規則和網路攻擊參數,構建了事件檢測條件、模態匹配條件和事件等待條件,並提出了一系列新的事件觸發機制,以有效提高網路資源的利用率並確保網路交換系統的穩態性能。三是,典型的網路攻擊對於具有嚴重不穩定動態的網路交換系統的安全穩態性能有獨特的影響,這是由於單個子系統的啟動時間短以及需要通過網路中繼切換信號的必要性。為此,研究了由於長時間的拒絕服務攻擊或包含切換信號篡改的完整性欺騙攻擊所導致的子系統或控制器的連續非同步切換行為。四是,為了應對由於子系統與相應控制器之間的切換不匹配、事件觸發時刻的數據更新、網路攻擊阻塞和傳輸數據篡改等因素引起的閉環系統瞬態性能波動,制定了無縫轉移控制策略,分為插值型和多源型,平衡網路交換系統輸出調節的瞬態和穩態性能。本書以系統化的方式呈現這些主題,對於涉及交換系統的理論研究和實際應用具有重要意義。
作者簡介
Jun Fu received his Ph.D. degree in mechanical engineering from Concordia University, Montreal, QC, Canada, in 2009. He was a Postdoctoral Fellow /Associate with the Department of Mechanical Engineering, Massachusetts Institute of Technology, Cambridge, MA, USA, from 2010 to 2014. He is currently a Full Professor with Northeastern University, Shenyang, China. He has authored /coauthored more than 100 publications, which appeared in journals, conference proceedings, and books. His current research interests include switched systems, robust control, and dynamic optimization. Dr. Fu received the 2018 Young Scientist Award in Science issued by the Ministry of Education of China (the first awardee in Chinese Control Community). He is currently an Associate Editor of the IEEE Transactions on Industrial Informatics, IEEE Transactions on Neural Networks and Learning Systems, and IFAC Control Engineering Practice.
作者簡介(中文翻譯)
Lili Li於2004年和2009年分別在中國東北大學獲得資訊與計算科學學士學位及控制理論與控制工程博士學位。從2009年到2012年,她在中國大連理工大學控制科學與工程學院擔任博士後研究員。從2009年到2017年,她在中國遼寧師範大學數學學院工作,之後加入大連海事大學,目前擔任海洋電氣工程學院的副教授。李博士曾獲得遼寧百千萬人才計畫及大連高層次人才創新計畫的獎勵。她是IEEE的會員。她目前的研究興趣包括混合系統、安全控制、輸出調節和海洋載具。
Jun Fu於2009年在加拿大蒙特利爾的康考迪亞大學獲得機械工程博士學位。他於2010年至2014年在美國麻省理工學院機械工程系擔任博士後研究員/副研究員。目前,他是中國沈陽東北大學的全職教授。他已發表/合著超過100篇論文,這些論文發表在期刊、會議論文集和書籍中。他目前的研究興趣包括切換系統、魯棒控制和動態優化。傅博士於2018年獲得中國教育部頒發的青年科學家獎(為中國控制社群的首位獲獎者)。他目前擔任IEEE工業資訊學報、IEEE神經網路與學習系統學報及IFAC控制工程實踐的副編輯。