A survey of design techniques for system-level dynamic power management
IEEE Transactions on Very Large Scale Integration (VLSI) Systems - Special section on low-power electronics and design
Energy efficient design of portable wireless systems
ISLPED '00 Proceedings of the 2000 international symposium on Low power electronics and design
Modulation scaling for Energy Aware Communication Systems
ISLPED '01 Proceedings of the 2001 international symposium on Low power electronics and design
IEEE Transactions on Very Large Scale Integration (VLSI) Systems
Energy-efficient packet transmission over a wireless link
IEEE/ACM Transactions on Networking (TON)
Remote power control of wireless network interfaces
Journal of Embedded Computing - Low-power Embedded Systems
IEEE MultiMedia
Communication over fading channels with delay constraints
IEEE Transactions on Information Theory
Energy-scalable OFDM transmitter design and control
Proceedings of the 43rd annual Design Automation Conference
A calculator for Pareto points
Proceedings of the conference on Design, automation and test in Europe
Bandwidth estimation in wireless lans for multimedia streaming services
Advances in Multimedia
Investigating the relationship between QoS and QoE in a mixed desktop/handheld gaming setting
Proceedings of the 5th international student workshop on Emerging networking experiments and technologies
A system level algorithmic approach toward energy-aware SDR baseband implementations
ICC'09 Proceedings of the 2009 IEEE international conference on Communications
Mobile Networks and Applications
Energy Aware Signal Processing for Software Defined Radio Baseband Implementation
Journal of Signal Processing Systems
ICEC'11 Proceedings of the 10th international conference on Entertainment Computing
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During the last decade, wireless communication has seen a trend towards application diversification leading to a significant growth in users. With the availability of - however energy-limited - nomadic devices and real-time multimedia applications, user demand is shifting from simply asking for higher data rates to more complex requirements in terms of Quality of Service (QoS) and energy-efficiency. In this new context energy management is becoming a key success factor. Optimized energy-efficiency requires an energy management that continuously trades off QoS and energy adapting to varying user expectations and environment dynamics. But, QoS can only be evaluated on top of the whole protocol stack while energy consumption largely appears at the lower layers. To minimize overhead during the transitions between layers, we need to address the problem from a cross-layer perspective. We present a methodology that, based on systematic exploration, effective problem partitioning and minimal cross-layer interface, allows energy management in a cross-layer way, while maintaining efficient layered semantics. Different case studies in the context of wireless LAN (WLAN) for multimedia and data traffic transport are discussed, to show how cross-layer energy management can easily be included in systems running state-of-the-art protocols.