Abstract
The battery driven nature of wireless sensor networks, combined with the need for operational lifetimes of months to years, mandates that energy efficiency be treated as a metric of utmost priority while designing these distributed sensing systems. This chapter presents an overview of energy-centric sensor node design techniques that enable designers to significantly extend system and network lifetime. Such extensions to battery life can only be obtained by eliminating energy inefficiencies from all aspects of the sensor node, ranging from the hardware platform to the operating system, network protocols, and application software.
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REFERENCES
Wireless Integrated Network Sensors, University of California, Los Angeles. (http://www.janet.ucla.edu/WINS)
J. M. Kahn, R. H. Katz, and K. S. J. Pister, “Next century challenges: mobile networking for smart dust”, in Proc. Mobicom, pp. 483–492, 1999.
D. Estrin and R. Govindan, “Next century challenges: scalable coordination in sensor networks”, in Proc. Mobicom, pp. 263–270, 1999.
A. P. Chandrakasan, et al., “Design considerations for distributed microsensor systems”, in Proc. CICC, 1999, pp. 279–286.
J. Rabaey, et al., “PicoRadio supports ad hoc ultra low power wireless networking”, in IEEE Computer, July 2000, pp. 42–48.
A. P. Chandrakasan and R. W. Brodersen, Low Power CMOS Digital Design, Kluwer Academic Publishers, Nonvell, MA, 1996.
V. Tiwari, S. Malik, A. Wolfe, and M. T. C. Lee, “Instruction level power analysis and optimization of software”, in Jrnl. VLSI Signal Processing, Kluwer Academic Publishers, pp. 1–18, 1996.
A. Sinha and A. P. Chandrakasan, “Jouletrack: A web based tool for software energy profiling”, in Proc. Design Automation Conf, 2001.
A. Wang, S-H. Cho, C. G. Sodini, and A. P. Chandrakasan, “Energy-efficient modulation and MAC for asymmetric microsensor systems”, in Proc. ISLPED, 2001.
WINS project, Rockwell Science Center, (http://wins.rsc.rockwell.com).
Y. Xu, J. Heidemann and D. Estrin, “Geography-informed energy conservation for ad hoc routing”, in Proc. Mobicom, 2001.
C. F. Chiasserini and R. R. Rao, “Pulsed battery discharge in communication devices”, in Proc. Mobicom, 1999.
S. Park, A. Sawides, and M. Srivastava, “Battery capacity measurement and analysis using lithium coin cell battery”, in Proc. ISLPED, 2001.
L. Benini and G. DeMicheli, Dynamic Power Management: Design Techniques & CAD Tools, Kluwer Academic Publishers, Nonvell, MA, 1997.
T. A. Pering, T. D. Burd, and R. W. Brodersen, “The simulation and evaluation of dynamic voltage scaling algorithms”, in Proc. ISLPED, pp. 76–81, 1998.
V. Raghunathan, P. Spanos, and M. Srivastava, “Adaptive power-fidelity in energy aware wireless embedded systems”, to be presented at IEEE Real Time Systems Symposium, 2001.
F. Yao, A. Demers, and S. Shenker, “A scheduling model for reduced CPU energy”, in Proc. Annual Symp. on Foundations of Computer Science, pp.374–382, 1995.
A. Sinha, A. Wang, and A. P. Chandrakasan, “Algorithmic transforms for efficient energy scalable computation”, in Proc. ISLPED, 2000.
V. Tsiatsis, S. Zimbeck, and M. Srivastava, “Architectural strategies for energy efficient packet forwarding in wireless sensor networks”, in Proc. ISLPED, 2001.
C. Schurgers, 0. Aberthorne, and M. Srivastava, “Modulation scaling for energy aware communication systems”, in Proc. ISLPED, 2001.
C. Schurgers, G. Kulkarni, and M. Srivastava, “Distributed assignment of encoded MAC addresses in wireless sensor networks”, in Proc. MobiHoc, 2001.
K. Sohrabi, J. Gao, V. Ailawadhi, and G. Pottie, “Protocols for self-organization of a wireless sensor network”, in IEEE Personal Comm. Magazine, vo1.7, no.5, pp. 16–27, Oct. 2000.
W. Heinzelman, A. Chandrakasan, and H. Balakrishnan, “Energy-efficient communication protocol for wireless sensor networks”, in Proc. Hawaii Intl. Con$ on System Sciences, Hawaii, 2000.
P. Lettieri, C. Fragouli, and M. Srivastava, “Low power error control for wireless links”, in Proc. Mobicom, pp. 139–150, 1997.
J.-H. Chang and L. Tassiulas, “Energy conserving routing in wireless ad-hoc networks”, in Proc. INFOCOM, 2000.
C. Schurgers and M. Srivastava, “Energy efficient routing in sensor networks“, in Proc. Milcom, 2001.
B. Chen, K. Jamieson, H. Balakrishnan, and R Morris, “SPAN: An energy-efficient coordination algorithm for topology maintenance in ad hoc wireless networks, in Proc. Mobicom, 2001.
C. Schurgers, V. Tsiatsis, and M. Srivastava, “STEM: Topology management for energy efficient sensor networks”, Proceedings of the 2002 IEEE Aerospace Conference, March 2002.
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Raghunathan, V., Schurgers, C., Park, S., Srivastava, M.B. (2004). Energy Efficient Design of Wireless Sensor Nodes. In: Raghavendra, C.S., Sivalingam, K.M., Znati, T. (eds) Wireless Sensor Networks. Springer, Boston, MA. https://doi.org/10.1007/978-1-4020-7884-2_3
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DOI: https://doi.org/10.1007/978-1-4020-7884-2_3
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