International Association for Cryptologic Research

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2012-05-29
21:17 [Pub][ePrint] Efficient Dynamic Provable Possession of Remote Data via Update Trees, by Yihua Zhang and Marina Blanton

  The emergence and wide availability of remote storage service providers prompted work in

the security community that allows a client to verify integrity and availability of the data that

she outsourced to an untrusted remove storage server at a relatively low cost. Most recent

solutions to this problem allow the client to read and update (i.e., insert, modify, or delete)

stored data blocks while trying to lower the overhead associated with verifying the integrity

of the stored data. In this work we develop a novel scheme, performance of which favorably

compares with the existing solutions. Our solution enjoys a number of new features such as a

natural support for operations on ranges of blocks, revision control, and support for multiple

user access to shared content. The performance guarantees that we achieve stem from a novel

data structure termed a balanced update tree and removing the need to verify update operations.



21:17 [Pub][ePrint] An Adaptive-Ciphertext Attack against \"I $\\oplus$ C\'\' Block Cipher Modes With an Oracle, by Jon Passki and Tom Ritter

  Certain block cipher confidentiality modes are susceptible to an adaptive chosen-ciphertext attack against the underlying format of the plaintext. When the application decrypts altered ciphertext and attempts to process the manipulated plaintext, it may disclose information about intermediate values resulting in an oracle. In this paper we describe how to recognize and exploit such an oracle to decrypt ciphertext and control the decryption to result in arbitrary plaintext. We also discuss ways to mitigate and remedy the issue.



05:57 [PhD][Update] Olivier Markowitch: Non-repudiation protocols

  Name: Olivier Markowitch
Topic: Non-repudiation protocols
Category:cryptographic protocols





2012-05-28
08:29 [Event][New] SecurIT: SecurIT 1st International Security Conference on Internet of Things

  Submission: 10 June 2012
From August 17 to August 19
Location: Kollam, India
More Information: http://www.securit.ws


08:27 [Event][New] BulCrypt 2012: Bulgarian Cryptography Days 2012

  Submission: 17 June 2012
Notification: 1 July 2012
From September 20 to September 21
Location: Sofia, Bulgaria
More Information: http://bulcrypt2012.balkancrypt.org


08:26 [Event][New] CT-RSA 2013: The Cryptographers' Track at RSA Conference

  Submission: 3 September 2012
Notification: 26 October 2012
From February 25 to March 1
Location: San Francisco, USA




2012-05-25
17:39 [PhD][New] Peter Birkner: Efficient Arithmetic on Low-Genus Curves

  Name: Peter Birkner
Topic: Efficient Arithmetic on Low-Genus Curves
Category: public-key cryptography

Description: Public key cryptosystems are almost always based on two problems in number theory, the discrete-logarithm problem and the factorisation of integers. In this\r\nthesis we treat certain aspects of both of these problems.\r\n
\r\nThe most crucial parts of a cryptosystem that is based on the discrete-logarithm problem are the group and the efficiency of the arithmetic in this group. In this work we have investigated divisor class groups of hyperelliptic curves of genus 2 and 3 over binary fields. We suggest certain curves such that the appropriate group is considered secure, and provide efficient arithmetic on these curves.\r\n
\r\nThe most important operation in curve-based cryptosystems is single-scalar multiplication of divisor classes. Therefore a very time-efficient arithmetic is necessary. Since scalar multiplication is almost always computed using double and-add algorithms (or variants of these), it stands to reason to develop efficient doubling and addition formulas. In case of elliptic curves it turned out that point halving is very efficient, and hence halve-and-add algorithms proved very successful and could even replace the double-and-add methods in some situations.\r\n
\r\nSo it is natural to ask if similar results can be obtained for hyperelliptic curves as well. For genus-2 curves we have developed explicit halving formulas which can in some settings even beat the doubling counterparts. For the high-speed case\r\non the genus-2 curves we also give a complete case study, that covers all special cases, depending on the polynomial representation of the divisor class.\r\n
\r\nWe have generalised this also to the genus-3 case and investigated several types of curves and developed explicit halving formulas. For some curves of a rather\r\ngeneral form we could even beat the doubling formulas by 10 to 20 field multiplications which is a speedup of about 30-40%. For the most common setting in\r\ngenus 3 we give (like in genus 2) a complete case study [...]


17:37 [PhD][New] Jens Zumbrägel: Public-key cryptography based on simple semirings

  Name: Jens Zumbrägel
Topic: Public-key cryptography based on simple semirings
Category: public-key cryptography

Description:

The discrete logarithm problem is the basic ingredient of many\r\n public-key cryptosystems. It can be stated as follows: Given a\r\n cyclic group (G,?) of order n, a\r\n generator g of G, and another\r\n element h?G, find the unique\r\n integer a?[0,n) such that\r\n h=gˆa. The integer a is called\r\n the discrete logarithm of\r\n h to the base g.

\r\n \r\n

There are key agreement protocols, public-key encryption schemes,\r\n and digital signatures employing the discrete logarithm problem.\r\n One example is the Diffie-Hellman key agreement protocol. It allows\r\n two parties, A and B, to agree on a secret key over an insecure\r\n channel. In order to achieve this goal they fix a finite cyclic\r\n group G and a generator g of G. Then A and B\r\n pick random integers a,b respectively and exchange\r\n hA=gˆa\r\n and hB=gˆb. Finally they\r\n compute ha=gˆba\r\n and hb=gˆab, and\r\n since gˆab=gˆba this element\r\n can be used as their secret key.

\r\n\r\n

It is clear that solving the underlying discrete logarithm problem\r\n is sufficient for breaking the Diffie-Hellman protocol. For this\r\n reason one has been searching for groups in which the discrete\r\n logarithm problem is considered to be a computationally hard\r\n problem. Among the groups that have been proposed as candidates are\r\n the multiplicative group of a finite field and the group over an\r\n elliptic curve. It should however be pointed out that the\r\n infeasibility of the discrete logarithm problem has not been proved\r\n in any concrete group.

\r\n\r\n

Discrete logarithm based cryptosystems can be generalized in the\r\n framework of semigroup actions (see e.[...]


17:37 [PhD][New] Joachim Rosenthal

  Name: Joachim Rosenthal


17:36 [Job][New] 6 Ph.D. students, TELECOM-ParisTech, Paris, France

  The crypto group of TELECOM-ParisTech is looking for six Ph.D. students, on various topics linked to side-channel cryptanalysis.

The subjects are:

  1. Fault Injection for Reverse-Engineering (FIRE)

  2. Electromagnetic observation and injection, using information-theoretic tools

  3. Formal proof of countermeasures against attacks targeting cryptographic implementations

  4. Bus and memory encryption/integrity in embedded systems with SecBus — hardware aspects

  5. Information leakage of NFC-enabled smartphones by magnetic analysis

  6. Distinguishing side-channel distinguishers





2012-05-22
07:36 [Job][Update] Lecturer, Queensland University of Technology, Brisbane, Australia

 

The Queensland University of Technology (QUT) in Brisbane, Australia, invites applications for full-time Lecturer positions starting in 2012. Up to nine positions are available in the Science and Engineering Faculty.

The Science and Engineering Faculty at QUT has an active research group in cryptography, network security, and digital forensics, with a leading national profile and strong international links.

Applicants should have completed (or be under examination for) a PhD and be early career researchers (less than three years in an academic role). Appointee(s) will develop and maintain an active research program, teach at undergraduate and graduate levels, supervise research students, and participate in QUT\\\'s Early Career Academic Development program.