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Physical Layer Security in Power Line Communications Fundamentals, Models and Applications

Hernandez Fernandez, Javier Omri, Aymen Di Pietro Roberto
Innbundet / 2024 / Engelsk

Produktdetaljer

ISBN
9783031573484
Publisert
2024-07-11
Utgiver
Vendor
Springer International Publishing AG
Høyde
235 mm
Bredde
155 mm
Aldersnivå
Research, P, 06
Språk
Product language
Engelsk
Format
Product format
Innbundet

Forfatter
Hernandez Fernandez, Javier
Omri, Aymen
Di Pietro Roberto

Biographical note

Javier Hernandez Fernandez specializes in the area of technology innovation and brings over twenty years of practical experience in overseeing the design and delivery of R&D initiatives on behalf of multi-national companies in the field of IT, telecom, and utilities. He currently manages research and technical consulting projects as part of the Innovation team of Iberdrola, working in the smart grid, renewables, and energy efficiency domains.In addition to a B.Sc. in Computer Science from the University of Ottawa, Javier holds two Masters degrees in Energy Management from the University of Zaragoza and Project Management from the University San Pablo CEU/IEP and a PhD. in Computer Science & Engineering from HBKU. 

Aymen Omri received the engineering degree in Telecommunications from The Tunisian Aviation Academy EABA, in 2007, and the M.Res. and Ph.D. degrees in Information and Communications Technology (ICT) from the Engineering National School of Tunis (ENIT)/Tunis El Manar University, in 2009 and 2012, respectively. From 2012 to 2017, he was a Postdoctoral Researcher at the Electrical Engineering (EE) Department, Qatar University. From 2018 to 2019, he was a Postdoctoral Researcher at the Department of Electrical and Computer Engineering, Texas A&M University in Qatar. He is currently a Research Scientist at Iberdrola Innovation Middle East / Qatar Science & Technology Park. His research interests include modeling, design, and performance analysis of communication systems. In particular, he has an interest in: 5-G NR Systems, Device to Device Communication Systems, Wireless/Wired Emulation and Experimentation Platforms, and Power Line Communication (PLC) Systems.

 Roberto Di Pietro, IEEE Fellow, ACM Distinguished Scientist, Member of Academia Europaea, is a Full Professor in Computer Science with the KAUST-CEMSE, Saudi Arabia. Previously, he was Professor in Cybersecurity and founder of the CRI-Lab at HBKU-CES, Doha-Qatar.Before moving to the Middle East, he was in the capacity of Global Head Security Research at Nokia Bell Labs (Paris-France), and Associate Professor (with tenure) of Computer Science at University of Padova, Italy. He has been working in the security field for 25+ years, leading both technology-oriented and research-focused teams in the private sector, government, and academia (MoD, United Nations HQ, EUROJUST, IAEA, WIPO). His main research interests include AI driven cybersecurity, security and privacy for distributed systems (e.g. Blockchain technology, Cloud, IoT, OSNs), virtualization security, applied cryptography, and data science. He has published hundreds of scientific articles on the cited topics, co-authored four books, and registered tens of patents and patents applications. Other than being involved in M&A of start-ups —and having founded one (exited)—, he is in the Board of research centers and start-ups. In 2011-2012 he was awarded a Chair of Excellence from UniversityCarlos III, Madrid. In 2020 he received the JeanClaude Laprie Award for having significantly influenced the theory and practice of Dependable Computing. In 2022 he was awarded the Individual Innovation Award from HBKU. He is consistently ranked among the 2% top world scientists since this ranking existed.

Physical Layer Security in Power Line Communications Fundamentals, Models and Applications

Hernandez Fernandez, Javier Omri, Aymen Di Pietro Roberto
Innbundet / 2024 / Engelsk
Hernandez Fernandez, Javier Omri, Aymen Di Pietro Roberto
Innbundet / 2024 / Engelsk
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This book emerges as a seminal work, addressing the critical need for robust security for power line communications (PLC), during an era where digital interconnectivity is paramount yet vulnerable. This comprehensive volume offers a deep dive into the realm of PLC, a technology increasingly central to our interconnected power grid infrastructure and explores its potential as a cornerstone for various applications.  This book opens with a clear and informative introduction to PLC, shedding light on its present status and importance. The authors then delve into the heart of the matter: the application of physical layer security (PLS) in PLC networks. PLS, an emerging field in its own right, is presented as a vital complement or alternative to traditional communications security methods, especially relevant for securing networks of low-complexity devices that are pivotal in PLC applications. This exhaustive treatment of PLS in PLC is unprecedented, both in its scope and depth. This book not only clarifies the fundamental principles of PLS in PLC, but also provides actionable insights for mitigating risks and enhancing resilience. Targeted towards engineers, researchers, graduate students and practitioners grappling with the multifaceted aspects of cybersecurity in energy infrastructure, this book stands out for its clarity, rigor, and the practical applicability of its content. The authors share the results of their extensive research journey and practice, presenting compelling use cases that underscore the practicality of their findings, as well as insights to be prepared for the next challenges in the security of the grid infrastructure.  
Les mer
PLS, an emerging field in its own right, is presented as a vital complement or alternative to traditional communications security methods, especially relevant for securing networks of low-complexity devices that are pivotal in PLC applications.This exhaustive treatment of PLS in PLC is unprecedented, both in its scope and depth.
Les mer
Chapter.1.Introduction.- Chapter.2.An Overview of Power Line Communication Networks.- Chapter.3.Power Line Communication Channel Characteristics.- Chapter.4.Power Line Communication Security.- Chapter.5.Physical Layer Security in Power Line Communications.- Chapter.6.Performance Analysis of Data Transmission Security and Reliability in PLC.- Chapter.7.Confidentiality Technique for PLC Networks.- Chapter.8.Authentication Method for PLC Network.- Chapter.9.PLC Network Integrity Solution.-Chapter.10.PLC Availability Scheme.- Chapter.11.Conclusions.
Les mer
This book emerges as a seminal work, addressing the critical need for robust security for power line communications (PLC), during an era where digital interconnectivity is paramount yet vulnerable. This comprehensive volume offers a deep dive into the realm of PLC, a technology increasingly central to our interconnected power grid infrastructure and explores its potential as a cornerstone for various applications.  This book opens with a clear and informative introduction to PLC, shedding light on its present status and importance. The authors then delve into the heart of the matter: the application of physical layer security (PLS) in PLC networks. PLS, an emerging field in its own right, is presented as a vital complement or alternative to traditional communications security methods, especially relevant for securing networks of low-complexity devices that are pivotal in PLC applications. This exhaustive treatment of PLS in PLC is unprecedented, both in its scope and depth. This book not only clarifies the fundamental principles of PLS in PLC, but also provides actionable insights for mitigating risks and enhancing resilience. Targeted towards engineers, researchers, graduate students and practitioners grappling with the multifaceted aspects of cybersecurity in energy infrastructure, this book stands out for its clarity, rigor, and the practical applicability of its content. The authors share the results of their extensive research journey and practice, presenting compelling use cases that underscore the practicality of their findings, as well as insights to be prepared for the next challenges in the security of the grid infrastructure.
Les mer
Offers a complete treatment of security and privacy in Power Line Communication (PLC) Blending industrial and academic approaches Presents case studies and applications

Relaterte produkter

This book emerges as a seminal work, addressing the critical need for robust security for power line communications (PLC), during an era where digital interconnectivity is paramount yet vulnerable. This comprehensive volume offers a deep dive into the realm of PLC, a technology increasingly central to our interconnected power grid infrastructure and explores its potential as a cornerstone for various applications.  This book opens with a clear and informative introduction to PLC, shedding light on its present status and importance. The authors then delve into the heart of the matter: the application of physical layer security (PLS) in PLC networks. PLS, an emerging field in its own right, is presented as a vital complement or alternative to traditional communications security methods, especially relevant for securing networks of low-complexity devices that are pivotal in PLC applications. This exhaustive treatment of PLS in PLC is unprecedented, both in its scope and depth. This book not only clarifies the fundamental principles of PLS in PLC, but also provides actionable insights for mitigating risks and enhancing resilience. Targeted towards engineers, researchers, graduate students and practitioners grappling with the multifaceted aspects of cybersecurity in energy infrastructure, this book stands out for its clarity, rigor, and the practical applicability of its content. The authors share the results of their extensive research journey and practice, presenting compelling use cases that underscore the practicality of their findings, as well as insights to be prepared for the next challenges in the security of the grid infrastructure.  
Les mer
PLS, an emerging field in its own right, is presented as a vital complement or alternative to traditional communications security methods, especially relevant for securing networks of low-complexity devices that are pivotal in PLC applications.This exhaustive treatment of PLS in PLC is unprecedented, both in its scope and depth.
Les mer
Chapter.1.Introduction.- Chapter.2.An Overview of Power Line Communication Networks.- Chapter.3.Power Line Communication Channel Characteristics.- Chapter.4.Power Line Communication Security.- Chapter.5.Physical Layer Security in Power Line Communications.- Chapter.6.Performance Analysis of Data Transmission Security and Reliability in PLC.- Chapter.7.Confidentiality Technique for PLC Networks.- Chapter.8.Authentication Method for PLC Network.- Chapter.9.PLC Network Integrity Solution.-Chapter.10.PLC Availability Scheme.- Chapter.11.Conclusions.
Les mer
This book emerges as a seminal work, addressing the critical need for robust security for power line communications (PLC), during an era where digital interconnectivity is paramount yet vulnerable. This comprehensive volume offers a deep dive into the realm of PLC, a technology increasingly central to our interconnected power grid infrastructure and explores its potential as a cornerstone for various applications.  This book opens with a clear and informative introduction to PLC, shedding light on its present status and importance. The authors then delve into the heart of the matter: the application of physical layer security (PLS) in PLC networks. PLS, an emerging field in its own right, is presented as a vital complement or alternative to traditional communications security methods, especially relevant for securing networks of low-complexity devices that are pivotal in PLC applications. This exhaustive treatment of PLS in PLC is unprecedented, both in its scope and depth. This book not only clarifies the fundamental principles of PLS in PLC, but also provides actionable insights for mitigating risks and enhancing resilience. Targeted towards engineers, researchers, graduate students and practitioners grappling with the multifaceted aspects of cybersecurity in energy infrastructure, this book stands out for its clarity, rigor, and the practical applicability of its content. The authors share the results of their extensive research journey and practice, presenting compelling use cases that underscore the practicality of their findings, as well as insights to be prepared for the next challenges in the security of the grid infrastructure.
Les mer
Offers a complete treatment of security and privacy in Power Line Communication (PLC) Blending industrial and academic approaches Presents case studies and applications

Produktdetaljer

ISBN
9783031573484
Publisert
2024-07-11
Utgiver
Vendor
Springer International Publishing AG
Høyde
235 mm
Bredde
155 mm
Aldersnivå
Research, P, 06
Språk
Product language
Engelsk
Format
Product format
Innbundet

Forfatter
Hernandez Fernandez, Javier
Omri, Aymen
Di Pietro Roberto

Biographical note

Javier Hernandez Fernandez specializes in the area of technology innovation and brings over twenty years of practical experience in overseeing the design and delivery of R&D initiatives on behalf of multi-national companies in the field of IT, telecom, and utilities. He currently manages research and technical consulting projects as part of the Innovation team of Iberdrola, working in the smart grid, renewables, and energy efficiency domains.In addition to a B.Sc. in Computer Science from the University of Ottawa, Javier holds two Masters degrees in Energy Management from the University of Zaragoza and Project Management from the University San Pablo CEU/IEP and a PhD. in Computer Science & Engineering from HBKU. 

Aymen Omri received the engineering degree in Telecommunications from The Tunisian Aviation Academy EABA, in 2007, and the M.Res. and Ph.D. degrees in Information and Communications Technology (ICT) from the Engineering National School of Tunis (ENIT)/Tunis El Manar University, in 2009 and 2012, respectively. From 2012 to 2017, he was a Postdoctoral Researcher at the Electrical Engineering (EE) Department, Qatar University. From 2018 to 2019, he was a Postdoctoral Researcher at the Department of Electrical and Computer Engineering, Texas A&M University in Qatar. He is currently a Research Scientist at Iberdrola Innovation Middle East / Qatar Science & Technology Park. His research interests include modeling, design, and performance analysis of communication systems. In particular, he has an interest in: 5-G NR Systems, Device to Device Communication Systems, Wireless/Wired Emulation and Experimentation Platforms, and Power Line Communication (PLC) Systems.

 Roberto Di Pietro, IEEE Fellow, ACM Distinguished Scientist, Member of Academia Europaea, is a Full Professor in Computer Science with the KAUST-CEMSE, Saudi Arabia. Previously, he was Professor in Cybersecurity and founder of the CRI-Lab at HBKU-CES, Doha-Qatar.Before moving to the Middle East, he was in the capacity of Global Head Security Research at Nokia Bell Labs (Paris-France), and Associate Professor (with tenure) of Computer Science at University of Padova, Italy. He has been working in the security field for 25+ years, leading both technology-oriented and research-focused teams in the private sector, government, and academia (MoD, United Nations HQ, EUROJUST, IAEA, WIPO). His main research interests include AI driven cybersecurity, security and privacy for distributed systems (e.g. Blockchain technology, Cloud, IoT, OSNs), virtualization security, applied cryptography, and data science. He has published hundreds of scientific articles on the cited topics, co-authored four books, and registered tens of patents and patents applications. Other than being involved in M&A of start-ups —and having founded one (exited)—, he is in the Board of research centers and start-ups. In 2011-2012 he was awarded a Chair of Excellence from UniversityCarlos III, Madrid. In 2020 he received the JeanClaude Laprie Award for having significantly influenced the theory and practice of Dependable Computing. In 2022 he was awarded the Individual Innovation Award from HBKU. He is consistently ranked among the 2% top world scientists since this ranking existed.

Relaterte produkter