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05:50 [Event][New] MoCrySEn '13: 2nd International Workshop on Modern Cryptography and Security Engineering

  Submission: 30 April 2013
Notification: 31 May 2013
From September 2 to September 6
Location: Regensburg, Germany
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05:50 [Event][New] ESORICS 2013: 18th European Symposium on Research in Computer Security

  Submission: 31 March 2013
Notification: 10 June 2013
From September 9 to September 11
Location: London, United Kingdom
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08:34 [Event][New] ISDFS '13: The First International Symposium on Digital Forensics and Security

  Submission: 15 April 2013
Notification: 25 April 2013
From May 20 to May 21
Location: Elaz??, Turkey
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08:33 [Event][New] Ice Break 2013: Ice Break 2013 - Summer School on Symmetric Cryptology

  From June 6 to June 12
Location: Reykjavik, Iceland
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08:32 [Event][New] SECITC '13: The 6th International Conference on Security for IT&C

  Submission: 29 April 2013
Notification: 28 May 2013
From June 25 to June 26
Location: Bucharest, Romania
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08:32 [Event][New] SAM'13: The 2013 International Conference on Security and Management

  Submission: 18 March 2013
Notification: 18 April 2013
From July 22 to July 25
Location: Las Vegas, USA
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13:17 [Pub][ePrint] On formal and automatic security verification of WSN transport protocols, by Ta Vinh Thong and Amit Dvir

  In this paper, we address the problem of formal and automated security verification of WSN transport

protocols that may perform cryptographic operations. The verification of this class of protocols is difficult

because they typically consist of complex behavioral characteristics, such as real-time, probabilistic, and

cryptographic operations. To solve this problem, we propose a

probabilistic timed calculus for cryptographic protocols, and demonstrate how to use this formal language

for proving security or vulnerability of protocols. The main advantage of the proposed language is that it

supports an expressive syntax and semantics, including bisimilarities that supports real-time, probabilistic,

and cryptographic issues at the same time. Hence, it can be used to verify the systems that involve these three

property in a more convenient way. In addition, we propose an automatic verification method, based on the

well-known PAT process analysis toolkit, for this class of protocols.

For demonstration purposes, we apply the proposed manual and automatic proof methods for verifying the security of

DTSN and SDTP, which are two of the recently proposed WSN tranport protocols.

13:17 [Pub][ePrint] Complete and Unified Group Laws are not Enough for Elliptic Curve Cryptography, by Graham Enos

  We analyze four recently proposed normal forms for elliptic curves. Though these forms are mathematically appealing and exhibit some cryptographically desirable properties, they nonetheless fall short of cryptographic viability, especially when compared to various types of Edwards Curves. In this paper, we present these forms and demonstrate why they fail to measure up to the standards set by Edwards Curves.

13:17 [Pub][ePrint] Revocable Identity-Based Encryption Revisited: Security Model and Construction, by Jae Hong Seo and Keita Emura

  In ACM CCS 2008, Boldyreva et al. proposed an elegant way of achieving an Identity-based Encryption (IBE) with {\\em efficient} revocation, which we call revocable IBE (RIBE). One of the significant benefit of their construction is scalability, where the overhead of the trusted authority is logarithmically increased in the number of users, whereas that in the Boneh-Franklin naive revocation way is linearly increased. All subsequent RIBE schemes follow the Boldyreva et al. security model and syntax. In this paper, we first revisit the Boldyreva et al. security model,

and aim at capturing the exact notion for the security of the naive but non-scalable Boneh-Franklin RIBE scheme. To this end, we consider a realistic threat, which we call {\\em decryption key exposure}. We also show that all prior RIBE constructions except for the Boneh-Franklin one are vulnerable to decryption key exposure. As the second contribution, we revisit approaches to achieve (efficient and adaptively secure) scalable RIBE schemes, and propose a simple RIBE scheme, which is the first scalable RIBE scheme with decryption key exposure resistance, and is more efficient than previous (adaptively secure) scalable RIBE schemes.

In particular, our construction has the shortest ciphertext size and the fastest decryption algorithm even compared with all scalable RIBE schemes without decryption key exposure resistance.

13:17 [Pub][ePrint] Provable Security of S-BGP and other Path Vector Protocols: Model, Analysis and Extensions, by Alexandra Boldyreva and Robert Lychev

  This paper provides the provable-security treatment of path vector routing protocols. We first design a security definition for routing path vector protocols by studying, generalizing, and formalizing numerous known threats. Our model incorporates three major security goals. It is quite strong, yet simple to use. We prove by reduction that S-BGP satisfies two out of the security model\'s three goals, assuming the underlying signature scheme is secure. Under the same assumption, we next show how the protocol can be modified to meet all three security goals simultaneously. We also analyze SoBGP and show that it fails to meet two security goals. Finally, we study security of partial PKI deployment of path vector protocols when not all nodes have public keys. We investigate the possibilities of relaxing the PKI requirement and relying on non-cryptographic physical security of networks that use the protocol in order to achieve possibly weaker, but still well-defined, notions of security. We also present the necessary and sufficient conditions to achieve full security in the partial PKI deployment scenario. We believe our conclusions will prove useful for protocol developers, standards bodies and government agencies.

13:17 [Pub][ePrint] Efficient Delegation of Key Generation and Revocation Functionalities in Identity-Based Encryption, by Jae Hong Seo and Keita Emura

  In the public key cryptosystems, revocation functionality is required when a secret key is corrupted by hacking or the period of a contract expires. In the public key infrastructure setting, numerous solutions have been proposed, and in the Identity Based Encryption (IBE) setting, a recent series of papers proposed revocable IBE schemes. Delegation of key generation is also an important functionality in cryptography from a practical standpoint since it allows reduction of excessive workload for a single key generation authority. Although fficient solutions for either revocation or delegation of key generation in IBE systems have been proposed, an important open problem is efficiently delegating both the key generation and revocation functionalities in IBE systems. Libert and Vergnaud, for instance, left this as an open problem in their CT-RSA 2009 paper. In this paper, we propose the first solution for this problem. We prove the selective-ID security of our proposal under the Decisional Bilinear Diffie-Hellman assumption in the standard model.