Topology Control Protocols to Conserve Energy in Wireless Ad Hoc Networks. Xu, Y., Bien, S., Mori, Y., Heidemann, J., & Estrin, D. Technical Report 6, University of California, Los Angeles, Center for Embedded Networked Computing, January, 2003. submitted for publication
Topology Control Protocols to Conserve Energy in Wireless Ad Hoc Networks [link]Paper  abstract   bibtex   
In wireless ad hoc networks and sensor networks, energy use is in many cases the most important constraint since it corresponds directly to operational lifetime. This paper presents two topology control protocols that extend the lifetime of dense ad hoc networks while preserving connectivity, the ability for nodes to reach each other. Our protocols conserve energy by identifying redundant nodes and turning their radios off. Geographic Adaptive Fidelity (GAF) identifies redundant nodes by their physical location and a conservative estimate of radio range. Cluster-based Energy Conservation (CEC) directly observes radio connectivity to determine redundancy and so can be more aggressive at identifying duplication and more robust to radio fading. We evaluate these protocols through analysis, extensive simulations, and experimental results in two wireless testbeds, showing that the protocols are robust to variance in node mobility, radio propagation, node deployment density, and other factors.
@TechReport{Xu03a,
	author = "Ya Xu and Solomon Bien and Yutaka Mori and
 John Heidemann and Deborah Estrin",
	title = "Topology Control Protocols to Conserve Energy in Wireless Ad Hoc Networks",
	note = 		"submitted for publication",
	institution = 	"University of California, Los Angeles, Center for Embedded Networked Computing",
	year = 		2003,
	sortdate = "2003-01-01",
	project = "ilense, cens, nocredit, scadds",
	jsubject = "sensornet_subtransport",
	number =	6,
	month =		jan,
	location =	"johnh: folder: xxx",
	location =	"johnh: pafile",
	keywords =	"GAF, CEC, AFECA, ad hoc routing, diffusion,
                         adaptive fideltiy",
	url =		"http://www.isi.edu/%7ejohnh/PAPERS/Xu03a.html",
	psurl =		"http://www.isi.edu/%7ejohnh/PAPERS/Xu03a.ps.gz",
	pdfurl =		"http://www.isi.edu/%7ejohnh/PAPERS/Xu03a.pdf",
	organization =	"USC/Information Sciences Institute",
	abstract = "
In wireless ad hoc networks and sensor networks, energy use is in many
cases the most important constraint since it corresponds directly to
operational lifetime. This paper presents two topology control
protocols that extend the lifetime of dense ad hoc networks while
preserving connectivity, the ability for nodes to reach each
other. Our protocols conserve energy by identifying redundant nodes
and turning their radios off. Geographic Adaptive Fidelity (GAF)
identifies redundant nodes by their physical location and a
conservative estimate of radio range. Cluster-based Energy
Conservation (CEC) directly observes radio connectivity to determine
redundancy and so can be more aggressive at identifying duplication
and more robust to radio fading. We evaluate these protocols through
analysis, extensive simulations, and experimental results in two
wireless testbeds, showing that the protocols are robust to variance
in node mobility, radio propagation, node deployment density, and
other factors.
",
}
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