Error Control and Energy Consumption in Communications for Nomadic Computing
IEEE Transactions on Computers - Special issue on mobile computing
Low power systems for wireless microsensors
ISLPED '96 Proceedings of the 1996 international symposium on Low power electronics and design
Power-aware routing in mobile ad hoc networks
MobiCom '98 Proceedings of the 4th annual ACM/IEEE international conference on Mobile computing and networking
Next century challenges: scalable coordination in sensor networks
MobiCom '99 Proceedings of the 5th annual ACM/IEEE international conference on Mobile computing and networking
Next century challenges: mobile networking for “Smart Dust”
MobiCom '99 Proceedings of the 5th annual ACM/IEEE international conference on Mobile computing and networking
The Cricket location-support system
MobiCom '00 Proceedings of the 6th annual international conference on Mobile computing and networking
Directed diffusion: a scalable and robust communication paradigm for sensor networks
MobiCom '00 Proceedings of the 6th annual international conference on Mobile computing and networking
Quantifying and enhancing power awareness of VLSI systems
IEEE Transactions on Very Large Scale Integration (VLSI) Systems - System Level Design
Energy-Efficient Communication Protocol for Wireless Microsensor Networks
HICSS '00 Proceedings of the 33rd Hawaii International Conference on System Sciences-Volume 8 - Volume 8
Minimum energy mobile wireless networks
IEEE Journal on Selected Areas in Communications
Proceedings of the conference on Design, Automation and Test in Europe - Volume 1
Power-aware microsensor design
ICCAD '05 Proceedings of the 2005 IEEE/ACM International conference on Computer-aided design
System software techniques for low-power operation in wireless sensor networks
ICCAD '05 Proceedings of the 2005 IEEE/ACM International conference on Computer-aided design
A modular power-aware microsensor with 1000X dynamic power range
IPSN '05 Proceedings of the 4th international symposium on Information processing in sensor networks
Analysis of the contention access period of IEEE 802.15.4 MAC
ACM Transactions on Sensor Networks (TOSN)
Error control coding in low-power wireless sensor networks: when is ECC energy-efficient?
EURASIP Journal on Wireless Communications and Networking
LL-MAC: A low latency MAC protocol for wireless self-organised networks
Microprocessors & Microsystems
A framework for energy consumption based design space exploration for wireless sensor nodes
Proceedings of the 13th international symposium on Low power electronics and design
Application-driven, energy-efficient communication in wireless sensor networks
Computer Communications
Proceedings of the 14th ACM/IEEE international symposium on Low power electronics and design
A framework for energy-consumption-based design space exploration for wireless sensor nodes
IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems
IEEE Transactions on Wireless Communications
Nonlinear MIMO: affordable MIMO technology for wireless sensor networks
IEEE Transactions on Wireless Communications
A system level algorithmic approach toward energy-aware SDR baseband implementations
ICC'09 Proceedings of the 2009 IEEE international conference on Communications
Energy Aware Signal Processing for Software Defined Radio Baseband Implementation
Journal of Signal Processing Systems
Distributed optimal estimation from relative measurements for localization and time synchronization
DCOSS'06 Proceedings of the Second IEEE international conference on Distributed Computing in Sensor Systems
Lifetime elongation for wireless sensor network using queue-based approaches
The Journal of Supercomputing
International Journal of Communication Systems
Toward green sensor field by optimizing power efficiency using D-policy M/G/1 queuing systems
Mobile Information Systems
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In the past few years, wireless microsensor networks have attracted a great deal of attention in the research community. This is due to the applications that will be enabled once wireless microsensor networks are in place. The design of wireless microsensor networks, however, represents a difficult challenge. Since many applications require fault-tolerant, long-term sensing, one important challenge is to design sensor networks that have long system lifetimes. Achieving long system lifetimes is difficult because sensor nodes are severely energy-constrained. In this paper, we demonstrate system-level techniques that adapt and tradeoff software and hardware parameters in response to changes in the requirements of the user, the characteristics of the underlying hardware, and the properties of the environment. By using these power-aware, system-level techniques, we are able to reduce the energy consumption of both general, adaptable systems and dedicated point systems. Moreover, given a specific set of operating conditions for a particular system, we show how energy savings of 50% can be achieved.