PAPAR: Pairing Based Authentication Protocol with Anonymous Roaming for Wireless Mesh Networks

Nazatul Haque Sultan, N. Sarma
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引用次数: 2

Abstract

In wireless networks, secure authentication protocol should enable a legitimate roaming user to get roaming services from foreign server when he/she is away from home domain. However, a basic authentication protocol requires participation of home server, foreign server and roaming user during the authentication between roaming user and foreign server. Recently, two-party based anonymous authentication protocols have been proposed, which does not require home server's participation, to protect identity, location and route information of the roaming users. But, the available anonymous authentication protocols are not efficient due to the shortcomings in security and high computational cost. This paper addresses those problems and proposes a novel two-party based anonymous authentication protocol for the roaming users, named PAPAR. PAPAR uses pairing-based cryptography to secure and to provide computationally efficient authentication. Further, PAPAR uses pseudo identities to ensure user anonymity. Moreover, PAPAR efficiently mitigates the effect of DoS (Denial of Service) attack by using light computational operations, such as Message Authentication Code. Comparison and experimental results show that PAPAR outperforms the existing works in terms of security and computational cost.
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基于配对的无线网状网络匿名漫游认证协议
在无线网络中,安全认证协议应使合法漫游用户在远离本地域的情况下能够从国外服务器获得漫游服务。但是,在漫游用户和外部服务器之间进行身份验证时,基本的身份验证协议需要主服务器、外部服务器和漫游用户的参与。近年来,为了保护漫游用户的身份、位置和路由信息,提出了不需要主服务器参与的两方匿名认证协议。但是,现有的匿名认证协议由于安全性不足和计算成本高,效率不高。针对这些问题,本文提出了一种新的基于两方的漫游用户匿名认证协议——PAPAR。PAPAR使用基于配对的加密技术来保证安全性,并提供计算效率高的身份验证。此外,PAPAR使用伪身份来确保用户匿名。此外,PAPAR通过使用消息认证码等轻量级计算操作,有效地减轻了DoS(拒绝服务)攻击的影响。对比和实验结果表明,PAPAR算法在安全性和计算成本方面都优于现有算法。
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