Security of Cyber-Physical Systems: Vulnerability and Impact
暫譯: 網路物理系統的安全性:脆弱性與影響
Karimipour, Hadis, Srikantha, Pirathayini, Farag, Hany
相關主題
商品描述
Today's technology is continually evolving towards interconnectivity among devices. This interconnectivity phenomenon is often referred to as Internet of Things (IoT). IoT technology is used to enhance the performance of systems in many applications. This integration of physical and cyber components within a system is associated with many benefits; these systems are often referred to as Cyber Physical Systems (CPSs).
The CPSs and IoT technologies are used in many industries critical to our daily lives. CPSs have the potential to reduce costs, enhance mobility and independence of patients, and reach the body using minimally invasive techniques. Although this interconnectivity of devices can pave the road for immense advancement in technology and automation, the integration of network components into any system increases its vulnerability to cyber threats. Using internet networks to connect devices together creates access points for adversaries. Considering the critical applications of some of these devices, adversaries have the potential of exploiting sensitive data and interrupting the functionality of critical infrastructure.
Practitioners working in system security, cyber security & security and privacy will find this book valuable as a reference. Researchers and scientists concentrating on computer systems, large-scale complex systems, and artificial intelligence will also find this book useful as a reference.
商品描述(中文翻譯)
本書全面概述了網路物理系統(Cyber Physical Systems, CPSs)中的安全問題,通過分析CPS中的問題和漏洞,並檢視最先進的安全措施。此外,本書提出了各種防禦策略,包括智能攻擊和異常檢測算法。
當今技術不斷朝向設備之間的互聯互通發展。這種互聯現象通常被稱為物聯網(Internet of Things, IoT)。物聯網技術被用來提升許多應用中系統的性能。系統內物理和網路組件的整合帶來了許多好處;這些系統通常被稱為網路物理系統(CPSs)。
CPS和物聯網技術在許多對我們日常生活至關重要的行業中被廣泛使用。CPS有潛力降低成本,增強患者的流動性和獨立性,並以微創技術達到身體。儘管設備之間的互聯可以為技術和自動化的巨大進步鋪平道路,但將網路組件整合到任何系統中會增加其對網路威脅的脆弱性。使用互聯網網路將設備連接在一起會為對手創造進入點。考慮到這些設備的一些關鍵應用,對手有潛力利用敏感數據並中斷關鍵基礎設施的功能。
從事系統安全、網路安全及安全與隱私的實務工作者將會發現本書作為參考資料非常有價值。專注於計算機系統、大型複雜系統和人工智慧的研究人員和科學家也會發現本書作為參考資料非常有用。
作者簡介
Pirathayini Srikantha is currently an Assistant Professor in the Lassonde School of Engineering at York University. She obtained her Ph.D. degree from The Edward S. Rogers Sr. Department of Electrical and Computer Engineering at the University of Toronto in 2017. She is a certified Professional Engineer (P.Eng.) in Ontario. Her main research interests are in the areas of large-scale optimization and distributed control for enabling adaptive, sustainable and resilient power grid operations. Her work has been published in premier smart grid journal and conference venues. Her research efforts have received recognitions that include the best paper award (IEEE Smart Grid Communications) and runner-up best poster award (ACM Women in Computing). She is also actively involved in professional and social activities. She has served as the Workshop Chair, Session Chair and Technical Program Committee member in IEEE conferences. She is a reviewer in numerous IEEE transactions journals.
Hany E. Farag (M'13-SM'18) received the B.Sc. (with honors) and the M.Sc. degrees in Electrical Engineering from Assiut University, Assiut, Egypt, in 2004 and 2007, respectively, and the Ph.D. degree in Electrical and Computer Engineering from the University of Waterloo, Waterloo, ON, Canada, in 2013. Since July 2013, he has been with the Department of Electrical Engineering and Computer Science, Lassonde School of Engineering, York University, Toronto, ON, Canada, where he is currently working as an Associate Professor. He is a York Research Chair in Integrated Smart Energy Grids, the Principal Investigator with the Smart Grid Research Laboratory, York University, and the Lead Developer of curriculum and over 2 million dollars worth laboratories for the power system specialization in the new Electrical Engineering program at York University. He is also the Executive Secretary of Cigre International Workgroup C6.28 for standardization of offsupply microgrids. His research interests include the areas of power distribution networks, integration of distributed and renewable energy resources, electric mobility, modeling, analysis, and design of microgrids, and applications of multiagent technologies in smart grids. Dr. Farag is a Registered Professional Engineer in Ontario. He was the recipient of the prestigious Early Research Award (ERA) from Ontario Government.
Jin Wei-Kocsis (M'09) received the Ph.D. degree in Electrical and Computer Engineering from the University of Toronto, ON, Canada, in 2014, the M.S. degree in Electrical Engineering from the University of Hawaii at Manoa, Honolulu, HI, USA, in 2008, and the B.E. degree in Electronic Information Engineering from the Beijing University of Aeronautics and Astronautics, Beijing, China, in 2004. She is currently an Assistant Professor of Electrical and Computer Engineering with the University of Akron. She worked as a Postdoctoral Fellow in National Renewable Energy Laboratory from April 2014 to July 2014. Her research interests include developing low-complexity and hybrid weakly supervised deep learning techniques, developing data-driven cognitive computing and networking mechanisms, developing a blockchainenabled decentralized and privacy-preserving computing platform, developing blockchainpowered software-defined network-based secure and disaster-resilient networks, designing a blockchain-powered crowdsourced situational-awareness system, and developing datadriven cyber-physical-social security and privacy solutions for critical infrastructures. Dr. Wei-Kocsis received NASA Early Career Faculty Grant, the DoE/SuNLaMP Award, the BIRD Foundation Award, UA NSF I-Corps Grant, and Firestone Research Initiative.
作者簡介(中文翻譯)
哈迪斯·卡里米普爾是加拿大安大略省圭爾夫大學工程學院智慧電網實驗室的主任。她於2016年2月在阿爾伯塔大學電機與計算機工程系獲得能源系統的博士學位。在加入圭爾夫大學之前,她曾在卡爾加里大學擔任博士後研究員,專注於智慧電網的網路安全。她目前是圭爾夫大學工程學院工程系統與計算小組的助理教授。她的研究興趣包括大規模電力系統狀態估計、網路物理建模、智慧電網的網路安全,以及平行和分散式計算。她是IEEE及IEEE計算機學會的成員,並擔任IEEE女性工程師(WIE)主席及基奇納-滑鐵盧區IEEE資訊理論分會的分會主席。
皮拉塔伊尼·斯里坎塔目前是約克大學拉索德工程學院的助理教授。她於2017年在多倫多大學愛德華·S·羅傑斯電機與計算機工程系獲得博士學位。她是安大略省的註冊專業工程師(P.Eng.)。她的主要研究興趣在於大規模優化和分散控制,以促進自適應、可持續和韌性的電網運作。她的研究成果已發表在頂尖的智慧電網期刊和會議上。她的研究努力獲得了多項認可,包括最佳論文獎(IEEE智慧電網通訊)和最佳海報獎亞軍(ACM女性計算)。她也積極參與專業和社交活動,曾在IEEE會議中擔任工作坊主席、會議主席和技術計劃委員會成員,並在多本IEEE期刊擔任審稿人。
哈尼·E·法拉格(M'13-SM'18)於2004年和2007年分別在埃及阿斯尤特大學獲得電機工程學士(榮譽)和碩士學位,並於2013年在加拿大滑鐵盧大學獲得電機與計算機工程博士學位。自2013年7月以來,他一直在約克大學拉索德工程學院的電機工程與計算機科學系任教,目前擔任副教授。他是集成智慧能源電網的約克研究主席,約克大學智慧電網研究實驗室的首席研究員,以及約克大學新電機工程課程中電力系統專業的課程開發負責人,該課程的實驗室投資超過200萬美元。他還是Cigre國際工作組C6.28的執行秘書,負責微電網標準化的工作。他的研究興趣包括電力分配網絡、分散式和可再生能源資源的整合、電動移動性、微電網的建模、分析和設計,以及多代理技術在智慧電網中的應用。法拉格博士是安大略省的註冊專業工程師,曾獲得安大略省政府頒發的早期研究獎(ERA)。
金維·科西斯(M'09)於2014年在加拿大多倫多大學獲得電機與計算機工程博士學位,2008年在美國夏威夷大學馬諾阿校區獲得電機工程碩士學位,2004年在中國北京航空航天大學獲得電子信息工程學士學位。她目前是阿克倫大學電機與計算機工程系的助理教授。她於2014年4月至2014年7月在美國國家可再生能源實驗室擔任博士後研究員。她的研究興趣包括開發低複雜度和混合弱監督深度學習技術、開發數據驅動的認知計算和網絡機制、開發基於區塊鏈的去中心化和隱私保護計算平台、開發基於區塊鏈的軟體定義網絡安全和災難韌性網絡、設計基於區塊鏈的眾包情境感知系統,以及為關鍵基礎設施開發數據驅動的網路物理社會安全和隱私解決方案。科西斯博士獲得了NASA早期職業教師獎、能源部/SuNLaMP獎、BIRD基金會獎、UA NSF I-Corps獎和Firestone研究倡議。
