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Cyber-physical systems: Analysis and Design
浏览次数:日期:2023-10-11编辑:信科院 科研办

报告人:Professor Peng Shi, 欧洲科学院院士、IEEE Fellow、澳大利亚阿德莱德大学杰出教授

报告时间:20231015星期日 18:00 - 19:00  

报告地点:Zoom在线会议 281 001 9605

参会密码:HNU2023


报告摘要:Cyber-physical systems (CPS), such as smart grids and intelligent transportation systems, are complex systems where software and hardware components are seamlessly integrated towards performing well-defined tasks. However, this integration increases the vulnerability of CPS with more chances/higher possibility of cyber-attack that could cause severe consequences to economics, society, and human beings. Hence, cyber-security is a critical and important issue to be addressed in CPS. In this talk, the security of CPS is discussed from the perspectives of attackers. We will introduce the background of CPS and security issues, and some existing work on cyber-attacks. We then present our recent work on the design of stealthy hybrid attacks to CPS, which enables attackers to launch hybrid cyber-attacks more effectively to maximize system performance degradation with less chance to be detected. In turn, the attack strategies proposed would challenge the defenders to develop more effective, efficient and resilient methodologies to possibly detect hackers’ intrusions, and maintain the systems operating in a secure, reliable and desired mode.


智能电网和智能交通系统等网络物理系统(CPS)是复杂的系统,其中软件和硬件组件无缝集成以执行明确定义的任务。 然而,这种集成增加了 CPS 的脆弱性,网络攻击的机会/可能性更高,可能对经济、社会和人类造成严重后果。 因此,网络安全是 CPS 需要解决的关键且重要的问题。 本次演讲从攻击者的角度讨论了CPS的安全性。 我们将介绍CPS的背景和安全问题,以及网络攻击方面的一些现有工作。 然后,我们介绍了我们最近在针对 CPS 的隐形混合攻击设计方面的工作,该攻击使攻击者能够更有效地发起混合网络攻击,以最大限度地降低系统性能,同时减少被发现的机会。 反过来,所提出的攻击策略将挑战防御者开发更有效、高效和有弹性的方法,以可能检测黑客的入侵,并维持系统以安全、可靠和理想的模式运行。


报告人简介:Peng Shi received the PhD degree in Electrical Engineering from the University of Newcastle, Australia, the PhD degree in Mathematics from the University of South Australia, the Doctor of Science degree from the University of Glamorgan, UK, and the Doctor of Engineering degree from the University of Adelaide, Australia. He is now a Professor at the School of Electrical and Mechanical Engineering, and the Director of Advanced Unmanned Systems Laboratory, at The University of Adelaide, Australia. His research interests include systems and control theory and applications to autonomous and robotic systems, cyber-physical systems, and multi-agent systems. He received the Ramesh Agarwal Life-time Achievement Award in Science, Engineering and Technology from the International Engineering and Technology Institute in 2023, the MA Sargent Medal Award from Engineers Australia in 2022; the honor of Life-time Achiever Leader-Board and Field Leader from The AUSTRALIAN Research Review from 2019-2022, and the recognition of a Highly Cited Researcher from Thomson Reuters 2014-2022. Currently he serves as the Editor-in-Chief of IEEE Transactions on Cybernetics, a Senior Editor of IEEE Access, and an editorial member for a number of journals, including Automatica and IEEE Transactions on (Artificial Intelligence, and Circuits and Systems). His professional services also include as the President of the International Academy for Systems and Cybernetic Sciences, the Vice President of IEEE SMC Society, and IEEE SMC Society Distinguished Lecturer. He is a Fellow of IEEE, IET, IEAust and CAA, a Member of the Academy of Europe.


Peng Shi获得澳大利亚纽卡斯尔大学电气工程博士学位、南澳大利亚大学数学博士学位、英国格拉摩根大学理学博士学位、英国格拉摩根大学理学博士学位 澳大利亚阿德莱德大学工程学位。 现任澳大利亚阿德莱德大学机电工程学院教授、先进无人系统实验室主任。 他的研究兴趣包括系统和控制理论以及在自主和机器人系统、网络物理系统和多智能体系统中的应用。 2023年,他获得国际工程技术研究所颁发的拉梅什·阿加瓦尔科学、工程和技术领域终身成就奖;2022年,获得澳大利亚工程师协会颁发的马萨金特奖章; 荣获《澳大利亚研究评论》2019-2022 年终身成就者排行榜和领域领袖的荣誉,以及汤森路透 2014-2022 年高被引研究员的认可。 目前担任IEEE Transactions on Cybernetics的主编、IEEE Access的高级编辑,以及Automatica和IEEE Transactions on(人工智能、电路与系统)等多家期刊的编辑成员。他的专业服务还包括担任国际系统与控制科学研究院院长、IEEE SMC 协会副主席和 IEEE SMC 协会杰出讲师。他是 IEEE、IET、IEAust和 CAA 院士,欧洲科学院院士。


邀请人:李肯立


联系人:李梦泉