Key-agreement protocol

Results: 124



#Item
31Secure Sessions from Weak Secrets Michael Roe1 Bruce Christianson2 David Wheeler3 1

Secure Sessions from Weak Secrets Michael Roe1 Bruce Christianson2 David Wheeler3 1

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Source URL: www.chiark.greenend.org.uk

Language: English - Date: 2010-08-20 09:24:39
32A Secure Threshold Anonymous Password-Authenticated Key Exchange Protocol ? SeongHan Shin1 , Kazukuni Kobara1 , and Hideki Imai2,1 1 Research Center for Information Security (RCIS),

A Secure Threshold Anonymous Password-Authenticated Key Exchange Protocol ? SeongHan Shin1 , Kazukuni Kobara1 , and Hideki Imai2,1 1 Research Center for Information Security (RCIS),

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Source URL: eprint.iacr.org

Language: English - Date: 2008-12-21 19:36:43
33Poster: Handsfree ZRTP - A Novel Key Agreement for RTP, Protected by Voice Commitments 1. Dominik Schürmann

Poster: Handsfree ZRTP - A Novel Key Agreement for RTP, Protected by Voice Commitments 1. Dominik Schürmann

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Source URL: cups.cs.cmu.edu

Language: English - Date: 2013-05-31 08:50:04
34A weakness in Sun-Chen-Hwang’s three-party key agreement protocols using passwords ? Junghyun Nam, Seungjoo Kim, Dongho Won, School of Information and Communication Engineering, Sungkyunkwan University, 300 Cheoncheon-

A weakness in Sun-Chen-Hwang’s three-party key agreement protocols using passwords ? Junghyun Nam, Seungjoo Kim, Dongho Won, School of Information and Communication Engineering, Sungkyunkwan University, 300 Cheoncheon-

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Source URL: eprint.iacr.org

Language: English - Date: 2004-12-13 20:50:57
35Prompted User Retrieval of Secret Entropy: The Passmaze Protocol Daniel R. L. Brown∗ December 15, 2005 Abstract A prompting protocol permits users to securely retrieve secrets with greater entropy than

Prompted User Retrieval of Secret Entropy: The Passmaze Protocol Daniel R. L. Brown∗ December 15, 2005 Abstract A prompting protocol permits users to securely retrieve secrets with greater entropy than

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Source URL: eprint.iacr.org

Language: English - Date: 2005-12-23 10:31:13
36A preliminary version appears in ISC 2009, Lecture Notes in Computer Science, Springer-Verlag, 2009. This version is dated December 18, 2009. Security Analysis of the PACE Key-Agreement Protocol Jens Bender1

A preliminary version appears in ISC 2009, Lecture Notes in Computer Science, Springer-Verlag, 2009. This version is dated December 18, 2009. Security Analysis of the PACE Key-Agreement Protocol Jens Bender1

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Source URL: eprint.iacr.org

Language: English - Date: 2009-12-18 06:37:52
37TinyPBC: Pairings for Authenticated Identity-Based Non-Interactive Key Distribution in Sensor Networks Leonardo B. Oliveira UNICAMP, Brazil

TinyPBC: Pairings for Authenticated Identity-Based Non-Interactive Key Distribution in Sensor Networks Leonardo B. Oliveira UNICAMP, Brazil

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Source URL: eprint.iacr.org

Language: English - Date: 2008-01-07 17:26:25
38Cryptanalysis of an efficient certificateless two-party authenticated key agreement protocol Qingfeng Cheng Luoyang University of Foreign Languages, Luoyang, PR China

Cryptanalysis of an efficient certificateless two-party authenticated key agreement protocol Qingfeng Cheng Luoyang University of Foreign Languages, Luoyang, PR China

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Source URL: eprint.iacr.org

Language: English - Date: 2012-12-28 03:05:00
39Revisit of McCullagh–Barreto Two-Party ID-Based Authenticated Key Agreement Protocols Kim-Kwang Raymond Choo Information Security Research Centre Queensland University of Technology GPO Box 2434, Brisbane Q 4001, Austr

Revisit of McCullagh–Barreto Two-Party ID-Based Authenticated Key Agreement Protocols Kim-Kwang Raymond Choo Information Security Research Centre Queensland University of Technology GPO Box 2434, Brisbane Q 4001, Austr

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Source URL: eprint.iacr.org

Language: English - Date: 2004-12-01 20:41:44
40Multiparty Key Agreement using Bilinear Map Nam-Su Jho, Myung-Hwan Kim, Do Won Hong and Byung-Gil Lee ABSTRACT ⎯ A key agreement protocol is a cryptographical primitive which allows participants to share a common secre

Multiparty Key Agreement using Bilinear Map Nam-Su Jho, Myung-Hwan Kim, Do Won Hong and Byung-Gil Lee ABSTRACT ⎯ A key agreement protocol is a cryptographical primitive which allows participants to share a common secre

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Source URL: eprint.iacr.org

Language: English - Date: 2007-12-17 20:17:06