Speakers

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Prof.Josep Domingo-Ferrer

Universitat Rovira i Virgili

Distinguished Professor of Computer Science

Leader, CRISES Research Group

Chairholder, UNESCO Chair in Data Privacy

Founder, CYBERCAT: Center for Cybersecurity Research of Catalonia

ICREA Acadèmia Researcher

IEEE Fellow

Biography: 

Josep Domingo-Ferrer is a Distinguished Professor of Computer Science and an ICREA-Acadèmia Researcher at Universitat Rovira i Virgili, Tarragona, Catalonia, where he holds the UNESCO Chair in Data Privacy and is the founding director of CYBERCAT-Center for Cybersecurity Research of Catalonia. He received his B.Sc.-M.Sc. and Ph.D. degrees in Computer Science from the Autonomous University of Barcelona in 1988 and 1991, respectively. He also holds a B.Sc.-M.Sc. in Mathematics. His research interests are in data privacy, data security, statistical disclosure control and cryptographic protocols, with a focus on the conciliation of privacy, security and functionality.

He is a Fellow of IEEE, an ACM Distinguished Scientist and an Elected Member of Academia Europaea and the International Statistical Institute. Among other awards, he has received a Google Faculty Research Award and the Narcís Monturiol Medal for Scientific Merit (Govt. of Catalonia). 

His H-index is 61 according to Google Scholar.

More details at https://crises-deim.urv.cat/jdomingo/

Talk Title: Privacy-preserving distributed machine learning with intensive or minimalistic use of cryptography



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Dr. Ramjee Prasad

Fellow IEEE, IET, IETE,WWRF

Aalborg City Ambassador, Denmark 

International Cooperation Advisor, ITU, San Jose, California, USA


Biography: 

Dr. Ramjee Prasad, Fellow IEEE, IET, IETE, and WWRF, is a Professor of Future Technologies for Business Ecosystem Innovation (FT4BI) in the Department of Business Development and Technology, Aarhus University, Herning, Denmark. He is the Founder President of the CTIF Global Capsule (CGC). He is also the Founder Chairman of the Global ICT Standardisation Forum for India, established in 2009. GISFI has the purpose of increasing of the collaboration between European, Indian, Japanese, North-American and other worldwide standardization activities in the area of Information and Communication Technology (ICT) and related application areas.  

He has been honored by the University of Rome “Tor Vergata”, Italy as a Distinguished Professor of the Department of Clinical Sciences and Translational Medicine on March 15, 2016. He is Honorary Professor of University of Cape Town, South Africa, and University of KwaZulu-Natal, South Africa.

He has received Ridderkorset af Dannebrogordenen (Knight of the Dannebrog) in 2010 from the Danish Queen for the internationalization of top-class telecommunication research and education.

He has received several international awards such as: IEEE Communications Society Wireless Communications Technical Committee Recognition Award in 2003 for making contribution in the field of “Personal, Wireless and Mobile Systems and Networks”, Telenor's Research Award in 2005 for impressive merits, both academic and organizational within the field of wireless and personal communication,  2014 IEEE AESS Outstanding Organizational Leadership Award for: “Organizational Leadership in developing and globalizing the CTIF (Center for TeleInFrastruktur) Research Network”, and so on. 

He has been Project Coordinator of several EC projects namely, MAGNET, MAGNET Beyond, eWALL and so on.

He has published more than 50 books, 1000 plus journal and conference publications, more than 15 patents, over 145 PhD Graduates and larger number of Masters (over 250). Several of his students are today worldwide telecommunication leaders themselves.


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Prof.Amir Herzberg

Comcast professor of Security Innovations, University of Connecticut


Biography: 

Dr. Herzberg's is the Comcast professor for Cybersecurity Innovation in the department of Computer Science and Engineering, University of Connecticut. His research areas include: network security (esp. routing/DNS/transport, Denial-of-Service, Web), privacy and anonymity,applied cryptography, usable security, security for cyber-physical systems, and social, economic and legal aspects of security.

Dr. Herzberg earned his Ph.D. in Computer Science in 1991 from the Technion in Israel. From 1991 to 1995, he worked at the IBM T.J.Watson Research Center, where he was a research staff member and the manager of the Network Security research group. From 1996 to 2000, Dr. Herzberg was the Manager of E-Business and Security Technologies at the IBM Haifa Research Lab. From 2002 to 2017, he was a professor in Bar Ilan University (Israel). Since 2017, he is professor at University of Connecticut.

Dr. Herzberg is the author of many papers in different areas of cybersecurity as well as 24 patents, and is now writing a textbook on cybersecurity (draft available online). He has served in numerous program committees and delivered multiple keynote and plenary talks in conferences, and served as program chair for IEEE CNS’19, editor of PoPETS and ACM TISSEC/TOPS. Dr. Herzberg is recipient of the Internet Society's Applied Networking Research award, 2017.


Title: Next-generation Public Key Infrastructure (PKI): Goals, Solutions and Challenges

Abstract: 

Public Key Infrastructure (PKI)  provides an essential foundation to applications of public key cryptography, and crucial for security in open networks and systems. Since its introduction in 1988, the PKI landscape was dominated by the X.509 standard, widely deployed by many protocols and systems, most notably TLS/SSL, used to secure connections between web server and browser. 

 Unfortunately, the web-PKI deployment has inherent weaknesses, and over the years, we have seen many failures of this trusted-CA approach. PKI failures allow attackers to issue fake certificates, launch website spoofing and man-in-the-middle attacks, possibly leading to identity theft, surveillance, compromises of personal and confidential information, and other serious security breaches. 

These failures motivated efforts to develop and adopt  next-generation, improved-security PKI schemes, i.e., PKI schemes that ensure security against corrupt CAs. During the recent years, there have been extensive efforts toward this goal by researchers, developers and the IETF. These efforts focus on additional security goals such as {\em transparency}, {\em non-equivocation}, {\em privacy} and more. 

This talk will provide a concise review of this important area, and give the highlights of our research toward well-defined security goals for PKI schemes, and toward practical, efficient and yet provably-secure PKI schemes.  Some parts of the presentation would require basic understanding of applied crypto, mainly public-key cryptography, collision-resistant hashing,  and Merkle trees.















More speakers info will be updated soon.



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Contact

Ms. Chris Y. Cheung

Email: iwcsp@iaeeee.org

Tel:+852-30697699(English)