Aggelos Kiayias

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Aggelos Kiayias
CitizenshipGreek
Alma materUniversity of Athens
City University of New York
AwardsFRSE (2021)
Scientific career
Fields
Institutions
Doctoral advisorMoti Yung, Stathis Zachos

Aggelos Kiayias (Greek: Άγγελος Κιαγιάς) FRSE is a Greek cryptographer and computer scientist, currently a professor at the University of Edinburgh and the Chief Science Officer at Input Output Global (formerly IOHK), the company behind Cardano.[1]

Education[edit]

Kiayias received his PhD in 2002 at the City University of New York; his advisors were Moti Yung and Stathis Zachos.[2]

Career and research[edit]

Kiayias is the chair in cyber security and privacy, and director of the Blockchain Technology Laboratory at the University of Edinburgh, as well as a member of its Laboratory for Foundations of Computer Science. He is also the chief scientist at the blockchain technology company IOHK (IOG).[3][4][5] Previously he worked at the University of Connecticut and at the National and Kapodistrian University of Athens. In 2017, Kiayias started a blockchain course, making Edinburgh “one of the first big European universities to launch a blockchain course”, according to the Financial Times.[6] The Blockchain Technology Laboratory is based in the Bayes Centre at the university. It investigates decentralized systems in collaboration with industry and government bodies. By 2021, the laboratory listed nine staff and 21 researchers and PhD students.[7][8] In that year Kiayias was elected Fellow of the Royal Society of Edinburgh (FRSE).[9]

Kiayias has worked in a number of cryptographic areas:

Kiayias has served on program committees and organizing committees of numerous cryptography conferences. In particular, within forums organized by the International Association for Cryptologic Research, he served as the general chair of Eurocrypt 2013,[11] and as the program chair of Public Key Cryptography (PKC) 2020,[12] and served on the steering committee of the Real World Crypto Symposium during 2013–21.[13] He chaired the blockchain session at the IACR conference Crypto 2022.[14]

Blockchain research[edit]

Kiayias has described how the problem of debt-ridden banks in Greece inspired him to concentrate his research on creating a blockchain to widen access to financial services using a digital "parallel currency". The excessive computer processing power needed for proof-of-work blockchain protocols such as Bitcoin led him to work on ‘proof-of-stake’ blockchain protocols.[15]

In 2016, he led a team that published an ePrint paper (number 889, dated September 12) describing the Ouroboros blockchain consensus protocol.[16][17]

In 2017 Kiayias began teaching a blockchain course at the University of Edinburgh.[18]

In 2019, Kiayias published a paper with Emilios Avgouleas of Edinburgh's law school, on blockchain technology and systemic risk.[19][20]

In 2021, New Scientist quoted Kiayias on the resource consumption of the Chia cryptocurrency, saying that while Chia was less intensive than Bitcoin, that was clearing "a low bar as far as 'green' technology is concerned."[21]

In 2022, he was one of four authors of a Crypto 2022 paper describing Ofelimos, a blockchain protocol with a consensus mechanism based on proof of useful work (PoUW). In this mechanism, work done in validating the blockchain is used to solve complex problems that could be used for industrial applications, such as planning routes for delivery vehicles.[22]

Governance, scalability and ensuring the security of the Cardano blockchain are research areas at IOG.[23]

Other research has described using ideas from game theory to maintain Nash equilibrium and enable an economically sustainable, privacy-preserving mixnet.[24][25]

Electronic voting[edit]

From 2003, Kiayias focused his research on privacy and secure electronic voting using cryptography at the University of Connecticut.[26] In 2006, he led a team that discovered security flaws in Diebold AccuVote-OS machines (the “Optical Scan Report”) in a study supported by the Office of the Connecticut Secretary of the State. Unlike previous studies, the flaws were discovered by experimenting with the machine and without any access to the AV-OS source code.[27][28][29][30]

In 2015, The Wall Street Journal reported that Kiayias, by then professor of cryptography and computer security at the University of Athens, had led a team that had developed an encrypted electronic voting system for Greece. The article described the system as being based on a "distributed, publicly-available ledger" with voters being given electronic keys "akin to the blockchain's private and public key combination which authenticates bitcoin transactions". However, the WSJ pointed to political motives that might hinder the application of such technology: "the current Greek government is not interested [in electronic voting] because it's worried about the potential disruption that new voting systems could unleash amongst young, technologically-savvy and mobile electorates". It quoted Kiayias: "The previous Greek government was pro e-voting, but the new one isn't … Every time there is a modification of the voting infrastructure, you may also modify the population that actually participates in the vote."[31]

In 2017, at Scotland’s Democratic Future: Exploring Electronic Voting, a conference organised by the Scottish Government Elections Team and the University of Edinburgh School of Informatics, Kiayias said that "cryptography provides a thorough methodology for designing and formally establishing the security of voting systems" and that in terms of e-voting technology, "Scotland can do this, and it can be exemplary".[32][33][34] The event was cited by Joe FitzPatrick MSP, the Minister for Parliamentary Business, in a written answer about the Scottish government’s digital strategy and its work on online voting systems.[35]

Kiayias is a member of the Institution of Engineering and Technology’s working group on electronic voting, which produced a 2020 report ‘Internet voting in the UK’, discussing the issues, challenges and risks of the technology.[36]

A Fortune magazine article in the lead-up to the 2020 US presidential elections discussed the legal and logistical challenges of implementing an online voting system for the country. Kiayias commented: “The US is living with a voting system designed 200 years ago.”[37]

Selected publications[edit]

  • Juan A. Garay, David S. Johnson, Aggelos Kiayias, Moti Yung: The combinatorics of hidden diversity. Theor. Comput. Sci. 812: 80–95 (2020)
  • Juan A. Garay, Aggelos Kiayias, Nikos Leonardos: The Bitcoin Backbone Protocol: Analysis and Applications. EUROCRYPT (2) 2015: 281–310
  • Aggelos Kiayias, Serdar Pehlivanoglu: Encryption for Digital Content. Advances in Information Security 52 (a book), Springer 2010, ISBN 978-1-4419-0043-2, pp. 1–197
  • Babak Azimi-Sadjadi, Aggelos Kiayias, Alejandra Mercado, Bülent Yener: Robust key generation from signal envelopes in wireless networks. CCS 2007: 401–410
  • Aggelos Kiayias, Yiannis Tsiounis, Moti Yung: Traceable Signatures. EUROCRYPT 2004: 571–589
  • Yevgeniy Dodis, Aggelos Kiayias, Antonio Nicolosi, Victor Shoup: Anonymous Identification in Ad Hoc Groups. EUROCRYPT 2004: 609–626
  • Aggelos Kiayias, Moti Yung: Robust verifiable, non-interactive zero sharing: A plug-in utility for enhanced voters’ privacy, in: Dimitris A. Gritzalis (ed.) Secure Electronic Voting, Springer, 2003. ISBN 978-1402073014: pp. 139–152
  • Aggelos Kiayias, Moti Yung: Traitor Tracing with Constant Transmission Rate. EUROCRYPT 2002: 450–465
  • Aggelos Kiayias, Moti Yung: Self Protecting Pirates and Black-Box Traitor Tracing. CRYPTO 2001: 63–79

References[edit]

  1. ^ [1] Kiayias home page at University of Edinburgh
  2. ^ [2] Kiayias page at the mathematical genealogy site
  3. ^ [3] Chief Scientist Prof. Kiayias' page at IOHK
  4. ^ "Professor Aggelos Kiayias joins IOHK as Chief Scientist - IOHK Blog". IOHK. Retrieved 11 April 2023.
  5. ^ "Beyond Bitcoin - IOHK and University of Edinburgh establish Blockchain Technology Laboratory". The University of Edinburgh. 1 February 2019. Retrieved 31 March 2020.
  6. ^ "Universities add blockchain to course list". Financial Times. 18 June 2017. Retrieved 11 April 2023.
  7. ^ "Blockchain Technology Lab/IOHK".
  8. ^ "Beyond Bitcoin - IOHK and University of Edinburgh establish Blockchain Technology Laboratory". 12 August 2020.
  9. ^ Thomas, James (30 March 2021). "The RSE announces 2021 Fellows". Royal Society of Edinburgh. Retrieved 2 August 2023.
  10. ^ "dblp: Aggelos Kiayias". dblp.org. Retrieved 2 August 2023.
  11. ^ "Eurocrypt 2013". www.iacr.org. Retrieved 11 April 2023.
  12. ^ "PKC 2020". pkc.iacr.org. Retrieved 11 April 2023.
  13. ^ Past Real World Crypto Symposia
  14. ^ anon (2022). "IACR conference Crypto 2022 programme".
  15. ^ "Digital Banking Trends Of 2020". 15 April 2020. Retrieved 19 April 2023.
  16. ^ A Provably Secure Proof-of-Stake Blockchain Protocol, Aggelos Kiayias, Ioannis Konstantinou, Alexander Russell, September 12, 2016. https://web.archive.org/web/20160918110246/https://eprint.iacr.org/2016/889.pdf Retrieved 10 August 2020.
  17. ^ Kiayias, Aggelos; Russell, Alexander; David, Bernardo; Oliynykov, Roman (2017). "Ouroboros: A Provably Secure Proof-of-Stake Blockchain Protocol". In Katz, Jonathan; Shacham, Hovav (eds.). Advances in Cryptology – CRYPTO 2017. Lecture Notes in Computer Science. Vol. 10401. Cham: Springer International Publishing. pp. 357–388. doi:10.1007/978-3-319-63688-7_12. ISBN 978-3-319-63688-7.
  18. ^ "Universities add blockchain to course list". Financial Times. 18 June 2017. Retrieved 11 April 2023.
  19. ^ Avgouleas, Emilios; Kiayias, Aggelos (2019). "The Promise of Blockchain Technology for Global Securities and Derivatives Markets: The New Financial Ecosystem and the 'Holy Grail' of Systemic Risk Containment". European Business Organization Law Review. 20: 81–110. doi:10.1007/s40804-019-00133-3. hdl:20.500.11820/fb3cf5ae-bc8f-4ef9-aa8f-1a7ef429aba0. S2CID 235316977.
  20. ^ Priem, Randy (6 February 2020). "Distributed ledger technology for securities clearing and settlement: benefits, risks, and regulatory implications". Financial Innovation. 6 (1): 11. doi:10.1186/s40854-019-0169-6. hdl:10419/237197. ISSN 2199-4730. S2CID 211103331.
  21. ^ Sparkes, Matthew (26 May 2021). "Bitcoin rival Chia 'destroyed' hard disc supply chains, says its boss". New Scientist. Retrieved 27 January 2022.
  22. ^ "Ofelimos: Combinatorial Optimization via Proof-of-Useful-Work \ A Provably Secure Blockchain Protocol". Retrieved 2 August 2023.
  23. ^ "Aggelos Kiayias interview: Will blockchain be good for the planet?". VentureBeat. 6 February 2022. Retrieved 19 April 2023.
  24. ^ "The Computer Scientist Who Boosts Privacy With Entropy". Quanta Magazine. 18 October 2022. Retrieved 24 October 2022.
  25. ^ Diaz, Claudia; Halpin, Harry; Kiayias, Aggelos (13 June 2022). "Reward Sharing for Mixnets". Cryptoeconomic Systems. 2 (1). doi:10.21428/58320208.00acf460. hdl:20.500.11820/775c695b-c52f-474e-9016-ec68ce28cd9b. ISSN 2767-4207. S2CID 249658506.
  26. ^ Aggelos Kiayias and Moyi Young (2003) “Robust verifiable, non-interactive zero sharing: A plug-in utility for enhanced voters’ privacy” in Dimitris A. Gritzalis (ed.) Secure Electronic Voting, Springer, pp. 139-152.
  27. ^ Kiayias, A., Michel, L., Russell, A., and Shvartsman, A. (2006) “Security assessment of the Diebold optical scan voting terminal”. PDF available at http://voter.engr.uconn.edu/voter/ OS-Report files/uconn-report-os.pdf, Oct. 2006.
  28. ^ Joseph A. Calandrino et al (2007) “Source Code Review of the Diebold Voting System” (report by University of California, Berkeley, and Princeton academics under contract to the California Secretary of State). https://votingsystems.cdn.sos.ca.gov/oversight/ttbr/diebold-source-public-jul29.pdf.
  29. ^ Kiayias, A., Michel, L., Russell, A., and Shvartsman, A.. Integrity vulnerabilities in the Diebold TSX voting terminal. Available at http://voter.engr.uconn.edu/voter/ OS-TSX-Report files/TSX Voting Terminal Report.pdf, July 2007.
  30. ^ University of Alaska (2007) “State of Alaska Election Security Project” report for the State of Alaska Division of Elections, 21 December. https://www.elections.alaska.gov/doc/hava/SOA_Election_Security_Project_Phase_1_Report_Final.pdf
  31. ^ Nussbaum, Ania (29 July 2015). "Scientists in Greece Design Cryptographic E-Voting Platform". Wall Street Journal. ISSN 0099-9660. Retrieved 2 August 2023.
  32. ^ Russell, Nicholas (9 January 2018). "Blockchain academics define a new future for democracy in Scotland". Business for Scotland. Retrieved 11 April 2023.
  33. ^ University of Edinburgh School of Informatics (2017) "Scotland’s Democratic Future: Exploring Electronic Voting", 29 November https://www.ed.ac.uk/informatics/news-events/seminars/scotland-democratic-future-electronic-voting
  34. ^ Aggelos Kiayias (2017) "General Challenges of e-Voting", University of Edinburgh 29 November https://www.ed.ac.uk/files/atoms/files/05_-_kiayias.pdf
  35. ^ Joe FitzPatrick (2018) "Constitution and External Affairs", Scottish Parliament written answer, 13 March. https://external.parliament.scot/S5ChamberOffice/WA20180313(1).docx (Microsoft Word download file)
  36. ^ Institution of Engineering and Technology (2020) ‘Internet voting in the UK’ https://www.theiet.org/media/7025/internet-voting-in-the-uk.pdf Archived 5 February 2021 at the Wayback Machine
  37. ^ Jeff John Roberts (2020) ‘Why online voting will have to wait’. Fortune, October, pp. 53-54. https://fortune.com/2020/09/21/online-voting-us-elections-tech/ (subscription needed) (readable version https://itechnews.co.uk/why-online-voting-will-have-to-wait/ Archived 2 July 2022 at the Wayback Machine)

Sources[edit]

External links[edit]

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