basic positive drift algorithm / time varying wireless / probability law / minimum energy / on-line decisions / energy-delay performance / minimum energy simplicity / logarithmic energy-delay tradeoff / logarithmic energy-delay tradeoff relation / Wireless Downlinks Michael J. Neely / modified adaptive threshold algorithm / fundamental utility-delay tradeoff law / positive drift algorithm / minimum energy function / real time / logarithmic tradeoff law / power allocation algorithms / scheduling algorithm / energy-delay relation / time average energy / energy-delay tradeoff law / energy-delay tradeoffs / energy-delay tradeoff / intelligent packet dropping algorithm / energy / on-line strategy / average energy / vector link state process systems / buffer partitioning algorithm / wireless transmitter / timal queueing control algorithm / on-line algorithm / energy efficiency / minimum average energy / threshold-adaptive algorithm / power adaptive transmission technology / square root tradeoff law / dynamic control algorithms / /
Movie
The Claim 2 / /
Organization
National Science Foundation / University of Southern California / Los Angeles / Electrical Engineering Department / /
Person
C. Abdallah / /
Position
author / Associate Editor / controller / /
ProvinceOrState
Massachusetts / /
Region
Southern California / /
Technology
positive drift algorithm / basic positive drift algorithm / buffer partitioning algorithm / threshold-adaptive algorithm / The algorithm / scheduling algorithm / timal queueing control algorithm / modified adaptive threshold algorithm / flow control / dynamic control algorithms / required acceptance ratio Positive Drift Algorithm / on-line algorithm / modified algorithm / simulation / stabilizing power allocation algorithms / intelligent packet dropping algorithm / Digital Object Identifier / power adaptive transmission technology / /
IEEE TRANSACTIONS ON AUTOMATIC CONTROL, VOL. 54, NO. 3, MARCHIntelligent Packet Dropping for Optimal Energy-Delay Tradeoffs in Wireless Downlinks