Lin X. Cai scite author profile

Abstract-Millimeter-wave (mmWave) transmissions are promising technologies for high data rate (multi-Gbps) Wireless Personal Area Networks (WPANs). In this paper, we first introduce the concept of exclusive region (ER) to allow concurrent transmissions to explore the spatial multiplexing gain of wireless networks. Considering the unique characteristics of mmWave communications and the use of omni-directional or directional antennae, we derive the ER conditions which ensure that concurrent transmissions can always outperform serial TDMA transmissions in a mmWave WPAN. We then propose REX, a randomized ER based scheduling scheme, to decide a set of senders that can transmit simultaneously. In addition, the expected number of flows that can be scheduled for concurrent transmissions is obtained analytically. Extensive simulations are conducted to validate the analysis and demonstrate the effectiveness and efficiency of the proposed REX scheduling scheme. The results should provide important guidelines for future deployment of mmWave based WPANs.Index Terms-Resource management, exclusive region, service scheduling, spatial multiplexing gain, mmWave WPAN.

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Voice capacity analysis of WLAN with unbalanced traffic

Cai

Shen

Mark

et al. 2006

IEEE Trans. Veh. Technol.

191

139

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Abstract-An analytical model to study the performance of wireless local area networks (WLANs) supporting asymmetric nonpersistent traffic using the IEEE 802.11 distributed coordination function mode for medium access control (MAC) is developed. Given the parameters of the MAC protocol and voice codecs, the voice capacity of an infrastructure-based WLAN, in terms of the maximum number of voice connections that can be supported with satisfactory user-perceived quality, is obtained. In addition, voice capacity analysis reveals how the overheads from different layers, codec rate, and voice packetization interval affect voice traffic performance in WLANs, which provides an important guideline for network planning and management. The analytical results can be used for effective call admission control to guarantee the quality of voice connections. Extensive simulations have been performed to validate the analytical results.Index Terms-IEEE 802.11 DCF, unbalanced traffic, voice capacity.

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Lin X. Cai

LTE-unlicensed: the future of spectrum aggregation for cellular networks

Rex: A randomized EXclusive region based scheduling scheme for mmWave WPANs with directional antenna

Voice capacity analysis of WLAN with unbalanced traffic

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