Pin–Han Ho scite author profile

Abstract-Multicast communications is an efficient mechanism for one-to-many transmissions over a broadcast wireless channel, and is considered as a key technology for supporting emerging broadband multimedia services in the next generation wireless networks, such as Internet Protocol Television (IPTV), mobile TV, etc. Therefore, it is critical to design efficient multicast scheduling schemes to support these multimedia services. In this paper, we propose a cooperative multicast scheduling scheme for achieving efficient and reliable multicast transmission in IEEE 802.16 based wireless metropolitan area networks (WMAN). By exploiting the multi-channel diversity across different multicast groups and user cooperation among group members, the proposed scheme can achieve higher throughput than existing multicast schemes, for subscriber stations in both good and bad channel conditions. In addition, it has good fairness performance by considering the normalized relative channel condition of each multicast group. An analytical model is developed to evaluate the performance of the proposed scheme, in terms of service probability, power consumption, and throughput of each group member and multicast groups. The efficiency of the proposed scheme and the accuracy of the analytical model are corroborated by extensive simulations.Index Terms-Cooperative communication, multicast scheduling, IEEE 802.16.

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TSVC: timed efficient and secure vehicular communications with privacy preserving

Lin

Sun

Wang

et al. 2008

IEEE Trans. Wireless Commun.

171

110

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In this paper, we propose a Timed Efficient and Secure Vehicular Communication (TSVC) scheme with privacy preservation, which aims at minimizing the packet overhead in terms of signature overhead and signature verification latency without compromising the security and privacy requirements. Compared with currently existing public key based packet authentication schemes for security and privacy, the communication and computation overhead of TSVC can be significantly reduced due to the short message authentication code (MAC) tag attached in each packet for the packet authentication, by which only a fast hash operation is required to verify each packet. Simulation results demonstrate that TSVC maintains acceptable packet latency with much less packet overhead, while significantly reducing the packet loss ratio compared with that of the existing public key infrastructure (PKI) based schemes, especially when the road traffic is heavy.Index Terms-Vehicular communications, security, TESLA, hash chain.

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Pin–Han Ho

ECPP: Efficient Conditional Privacy Preservation Protocol for Secure Vehicular Communications

An Efficient Identity-Based Batch Verification Scheme for Vehicular Sensor Networks

RAISE: An Efficient RSU-Aided Message Authentication Scheme in Vehicular Communication Networks

A cooperative multicast scheduling scheme for multimedia services in IEEE 802.16 networks

TSVC: timed efficient and secure vehicular communications with privacy preserving

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