IACR News
Here you can see all recent updates to the IACR webpage. These updates are also available:
29 October 2020
Rishabh Poddar, Sukrit Kalra, Avishay Yanai, Ryan Deng, Raluca Ada Popa, Joseph M. Hellerstein
ePrint ReportWe present Senate, a system that allows multiple parties to collaboratively run analytical SQL queries without revealing their individual data to each other. Unlike prior works on secure multi-party computation (MPC) that assume that all parties are semi-honest, Senate protects the data even in the presence of malicious adversaries. At the heart of Senate lies a new MPC decomposition protocol that decomposes the cryptographic MPC computation into smaller units, some of which can be executed by subsets of parties and in parallel, while preserving its security guarantees. Senate then provides a new query planning algorithm that decomposes and plans the cryptographic computation effectively, achieving a performance of up to 145$\times$ faster than the state-of-the-art.
Howard M. Heys
ePrint ReportMartha Norberg Hovd, Martijn Stam
ePrint ReportWe present three versions: Anonymous, Identifiable, and Opaque VE (AVE, IVE and OVE), and concentrate on formal definitions, security notions and examples of instantiations based on preexisting primitives of the latter two. For IVE, the sender is identifiable both to the filter and the receiver, and we make the comparison with identity-based signcryption. For OVE, a sender is anonymous to the filter, but is identified to the receiver. OVE is comparable to group signatures with message recovery, with the important additional property of confidentiality of messages.
Melissa Azouaoui, Davide Bellizia, Ileana Buhan, Nicolas Debande, Sebastien Duval, Christophe Giraud, Eliane Jaulmes, Francois Koeune, Elisabeth Oswald, Francois-Xavier Standaert, Carolyn Whitnall
ePrint ReportShlomi Dolev, Ziyu Wang
ePrint ReportErkan Tairi, Pedro Moreno-Sanchez, Matteo Maffei
ePrint ReportIn this work, we present IAS, a construction for adaptor signatures that relies on standard cryptographic assumptions for isogenies, and builds upon the isogeny-based signature scheme CSI-FiSh. We formally prove the security of IAS against a quantum adversary. We have implemented IAS and our evaluation shows that IAS can be incorporated into current blockchains while requiring $\sim1500$ bytes of storage size on-chain and $\sim140$ milliseconds for digital signature verification. We also show how IAS can be seamlessly leveraged to build post-quantum off-chain payment applications such as payment-channel networks without harming their security and privacy.
University of Birmingham
Job PostingClosing date for applications:
Contact: Dr David Oswald
More information: https://www.jobs.ac.uk/job/CCF964/research-felllow-in-cyber-security
Tenure-track and Tenured faculty related to efficient algorithms & the foundations of theoretical CS
CISPA Helmholtz Center for Information Security
Job PostingCISPA offers two main types of faculty positions.
Tenure track: these positions are intended for candidates with excellent research credentials and the potential to pursue a program of innovative research. The positions are comparable to tenure-track positions at a leading university, and come with two full time research staff positions and generous support for other expenses.
Tenured: these positions are intended for established leading researchers with an outstanding scientific track record, and can be compared to an endowed chair at a leading university. All applicants are expected to build up a research team that pursues an internationally visible research agenda. Candidates for senior positions must be internationally renowned scientists.
All applicants are strongly encouraged to submit their complete application by November 30, 2020 for full consideration. However, applications will continue to be accepted until December 10, 2020.
CISPA values diversity and is committed to equality. We provide special support for dual-career couples. We highly encourage female researchers to apply. For more information about CISPA, see https://cispa.saarland
Closing date for applications:
Contact: scientific-recruiting@cispa.saarland
More information: https://jobs.cispa.saarland/jobs/department/faculty-14
CISPA Helmholtz Center for Information Security
Job Posting
CISPA offers two main types of faculty positions.
Tenure track: these positions are intended for candidates with excellent research credentials and the potential to pursue a program of innovative research. The positions are comparable to tenure-track positions at a leading university, and come with two full time research staff positions and generous support for other expenses.
Tenured: these positions are intended for established leading researchers with an outstanding scientific track record, and can be compared to an endowed chair at a leading university. All applicants are expected to build up a research team that pursues an internationally visible research agenda. Candidates for senior positions must be internationally renowned scientists.
All applicants are strongly encouraged to submit their complete application by November 30, 2020 for full consideration. However, applications will continue to be accepted until December 10, 2020.
CISPA values diversity and is committed to equality. We provide special support for dual-career couples. We highly encourage female researchers to apply. For more information about CISPA, see https://cispa.saarland
Closing date for applications:
Contact: scientific-recruiting@cispa.saarland
More information: https://jobs.cispa.saarland/de_DE/jobs/department/faculty-14
Duke University, Durham, NC, USA
Job Posting- Blockchain and smart contract security
- Trusted hardware security
- Scalable and fair consensus protocols
- Privacy enhancing technology (e.g., anonymous communication)
Closing date for applications:
Contact: Fan Zhang
More information: https://www.fanzhang.me/opening/ads.html
Nanyang Technological University (Singapore)
Job PostingClosing date for applications:
Contact: Thomas Peyrin: thomas.peyrin@ntu.edu.sg
Imperial College London
Job PostingOur Computational Privacy Group at Imperial College London is offering fully funded PhD positions for 2021 to study privacy, data protection, and the impact of algorithms on society.
Topics of current interests include, for instance, individual privacy in large-scale behavioral datasets; re-identification attacks against privacy-preserving data systems or aggregates, privacy of machine learning models, privacy engineering solutions such as differential privacy and query-based systems, ethics and fairness in AI, and computational social science.
For full details, please consult https://cpg.doc.ic.ac.uk/openings/
Deadline: Nov 1th 2020 (first deadline)
Recommended prerequisites. MSc or MEng (4y BEng will be considered) in computer science, statistics, mathematics, physics, electrical engineering, or a related field. Experience in data science, statistics and/or machine learning is a plus.
We encourage all qualified candidates to apply, in particular women, disabled, BAME, and LGBTQIA+ candidates.
About Imperial. Imperial College London, ranked 9th globally, is one of the top universities in the world. A full-time PhD at the South Kensington Campus takes 3-4 years, is fully funded and usually starts in October or January.
Closing date for applications:
Contact:
demontjoye@imperial.ac.uk
- Using as subject: “PhD Application 2020: YOUR NAME”
- Including a link (e.g. Imperial’s Filedrop system or Dropbox) to your CV and transcripts for each degree
More information: https://cpg.doc.ic.ac.uk/openings/
Akinori Hosoyamada, Tetsu Iwata
ePrint Report27 October 2020
Award
The IACR Fellows Program recognizes outstanding IACR members for technical and professional contributions to the field of cryptology.
Information about nominating a Fellow is available here.
26 October 2020
Ward Beullens
ePrint ReportSikhar Patranabis, Debdeep Mukhopadhyay
ePrint ReportTo date, work on forward and backward private SSE has focused mainly on single keyword search. However, for any SSE scheme to be truly practical, it should at least support conjunctive keyword search. In this setting, most prior SSE constructions with sub-linear search complexity do not support dynamic databases. The only exception is the scheme of Kamara and Moataz (EUROCRYPT'17); however it only achieves forward privacy. Achieving both forward and backward privacy, which is the most desirable security notion for any dynamic SSE scheme, has remained open in the setting of conjunctive keyword search.
In this work, we develop the first forward and backward private SSE scheme for conjunctive keyword searches. Our proposed scheme, called Oblivious Dynamic Cross Tags (or ODXT in short) scales to very large arbitrarily-structured databases (including both attribute-value and free-text databases). ODXT provides a realistic trade-off between performance and security by efficiently supporting fast updates and conjunctive keyword searches over very large databases, while incurring only moderate access pattern leakages to the server that conform to existing notions of forward and backward privacy. We precisely define the leakage profile of ODXT, and present a detailed formal analysis of its security. We then demonstrate the practicality of ODXT by developing a prototype implementation and evaluating its performance on real world databases containing millions of documents.