• Title/Summary/Keyword: 계산적 Diffie-Hellman 가정

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Pairwise Key Agreement Protocols Using Randomness Re-use Technique (난수 재사용 기법을 이용한 다중 키 교환 프로토콜)

  • Jeong, Ik-Rae;Lee, Dong-Hoon
    • The KIPS Transactions:PartC
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    • v.12C no.7 s.103
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    • pp.949-958
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    • 2005
  • In the paper we study key agreement schemes when a party needs to establish a session key with each of several parties, thus having multiple session keys. This situation can be represented by a graph, tailed a key graph, where a vertex represents a party and an edge represents a relation between two parties sharing a session key. graphs to establish all session keys corresponding to all edges in a key graph simultaneously in a single session. A key agreement protocol of a key graph is a natural extension of a two-party key agreement protocol. We propose a new key exchange model for key graphs which is an extension of a two-party key exchange model. using the so-called randomness re-use technique which re-uses random values to make session keys for different sessions, we suggest two efficient key agreement protocols for key graphs based on the decisional Diffie-Hellman assumption, and prove their securities in the key exchange model of key graphs. Our first scheme requires only a single round and provides key independence. Our second scheme requires two rounds and provides forward secrecy. Both are proven secure In the standard model. The suggested protocols are the first pairwise key agreement protocols and more efficient than a simple scheme which uses a two-party key exchange for each necessary key. Suppose that a user makes a session key with n other users, respectively. The simple scheme's computational cost and the length of the transmitted messages are increased by a factor of n. The suggested protocols's computational cost also depends on n, but the length of the transmitted messages are constant.

A Design of Efficient Keyword Search Protocol Over Encrypted Document (암호화 문서상에서 효율적인 키워드 검색 프로토콜 설계)

  • Byun, Jin-Wook
    • Journal of the Institute of Electronics Engineers of Korea CI
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    • v.46 no.1
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    • pp.46-55
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    • 2009
  • We study the problem of searching documents containing each of several keywords (conjunctive keyword search) over encrypted documents. A conjunctive keyword search protocol consists of three entities: a data supplier, a storage system such as database, and a user of storage system. A data supplier uploads encrypted documents on a storage system, and then a user of the storage system searches documents containing each of several keywords. Recently, many schemes on conjunctive keyword search have been suggested in various settings. However, the schemes require high computation cost for the data supplier or user storage. Moreover, up to now, their securities have been proved in the random oracle model. In this paper, we propose efficient conjunctive keyword search schemes over encrypted documents, for which security is proved without using random oracles. The storage of a user and the computational and communication costs of a data supplier in the proposed schemes are constant. The security of the scheme relies only on the hardness of the Decisional Bilinear Diffie-Hellman (DBDH) problem.

An Efficient Dynamic Group Key Agreement for Low-Power Mobile Devices (저전력 모바일 장치에 적합한 효율적인 동적 그룹 키 동의)

  • Cho Seokhyang;Nam Junghyun;Kim Seungjoo;Won Dongho;Lee Hyejoo;Choi Jinsoo
    • The KIPS Transactions:PartC
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    • v.12C no.2 s.98
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    • pp.157-168
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    • 2005
  • Group key agreement protocols are designed to provide a group of parties securely communicating over a public network with a session key. The mobile computing architecture is asymmetric in the sense of computational capabilities of participants. That is, the protocol participants consist of the stationary server(application servers) with sufficient computational Power and a cluster of mobile devices(clients) with limited computational resources. It is desirable to minimize the amount of computation performed by each group member in a group involving low-power mobile devices such as smart cards or personal digital assistants(PDAs). Furthermore we are required to update the group key with low computational costs when the members need to be excluded from the group or multiple new members need to be brought into an existing group. In this paper, we propose a dynamic group key protocol which offers computational efficiency to the clients with low-power mobile devices. We compare the total communicative and computational costs of our protocol with others and prove its suity against a passive adversary in the random oracle model.