Mobile power management for wireless communication networks
Wireless Networks
Mobile power management for maximum battery life in wireless communication networks
INFOCOM'96 Proceedings of the Fifteenth annual joint conference of the IEEE computer and communications societies conference on The conference on computer communications - Volume 2
European mobile communications on the move
IEEE Communications Magazine
IEEE Communications Magazine
IEEE Communications Magazine
A framework for uplink power control in cellular radio systems
IEEE Journal on Selected Areas in Communications
Application-driven power management for mobile communication
Wireless Networks
Media and data traffic coexistence in power-controlled wireless networks
WMuNeP '05 Proceedings of the 1st ACM workshop on Wireless multimedia networking and performance modeling
Dynamic power control in a fading downlink channel subject to an energy constraint
Queueing Systems: Theory and Applications
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For wireless networks, time division multiple access (TDMA) offers certain well-known advantages over methods such as spread spectrum code division (CDMA). Foremost among them is the guarantee that other users will not interfere during a node's dedicated time slots. For this desirable isolation, the cost is synchronization. Viewing arbitrary time intervals as potential TDMA time slots, we ask whether it is possible to obtain some of the benefit of time division without incurring the synchronization cost. In particular, we address the question of whether a TDMA-like state can be induced on asynchronous channels in such a way as to reduce interference and energy consumption. Through analysis and simulation we find conditions under which it is desirable to use time division. We then show how autonomous power management may be used as a mechanism to induce a form of time division. In this context a backlog-sensitive power management system is presented.