Energyefficient distributed constructions of miniumum spanning tree for wireless adhoc networks
Abstract
The Minimum Spanning Tree (MST) problem is one of the most important and commonly occurring primitive in the design and operation of data and communication networks. While there a redistributed algorithms for the MST problem these require relatively large number of messages and time, and are fairly involved, require synchronization and a lot of book keeping; this makes these algorithms impractical for emerging technologies such as ad hoc and sensor networks. In such networks, a sensor has very limited power, and any algorithm needs to be simple, local and energy efficient for being practical. Motivated by these considerations, we study the performance of a class of simple and local algorithms called Nearest Neighbor Tree (NNT) algorithms for energyefficient construction of MSTs in a wireless ad hoc setting. These employ a very simple idea to eliminate the work involved in cycle detection in other MST algorithms: each node chooses a distinct rank, and connects to the closest node of higher rank. We consider two variants of the NNT algorithms, obtained by two ways of choosing the ranks: (i) Random NNT, in which each node chooses a rank randomly, and (ii) Directional NNT, in which each node uses directional information for choosingmore »
 Authors:

 Gopal
 Maleq
 Publication Date:
 Research Org.:
 Los Alamos National Laboratory
 Sponsoring Org.:
 USDOE
 OSTI Identifier:
 977759
 Report Number(s):
 LAUR044817
TRN: US201012%%530
 Resource Type:
 Conference
 Resource Relation:
 Conference: Submitted to: IEEE Infocom. March 2005, Miami, FL
 Country of Publication:
 United States
 Language:
 English
 Subject:
 99 GENERAL AND MISCELLANEOUS//MATHEMATICS, COMPUTING, AND INFORMATION SCIENCE; DATA TRANSMISSION SYSTEMS; ALGORITHMS; APPROXIMATIONS; DESIGN; ENERGY EFFICIENCY; PERFORMANCE; SYNCHRONIZATION
Citation Formats
Kumar, V S. A., Pandurangan, G, and Khan, M. Energyefficient distributed constructions of miniumum spanning tree for wireless adhoc networks. United States: N. p., 2004.
Web.
Kumar, V S. A., Pandurangan, G, & Khan, M. Energyefficient distributed constructions of miniumum spanning tree for wireless adhoc networks. United States.
Kumar, V S. A., Pandurangan, G, and Khan, M. Thu .
"Energyefficient distributed constructions of miniumum spanning tree for wireless adhoc networks". United States. https://www.osti.gov/servlets/purl/977759.
@article{osti_977759,
title = {Energyefficient distributed constructions of miniumum spanning tree for wireless adhoc networks},
author = {Kumar, V S. A. and Pandurangan, G and Khan, M},
abstractNote = {The Minimum Spanning Tree (MST) problem is one of the most important and commonly occurring primitive in the design and operation of data and communication networks. While there a redistributed algorithms for the MST problem these require relatively large number of messages and time, and are fairly involved, require synchronization and a lot of book keeping; this makes these algorithms impractical for emerging technologies such as ad hoc and sensor networks. In such networks, a sensor has very limited power, and any algorithm needs to be simple, local and energy efficient for being practical. Motivated by these considerations, we study the performance of a class of simple and local algorithms called Nearest Neighbor Tree (NNT) algorithms for energyefficient construction of MSTs in a wireless ad hoc setting. These employ a very simple idea to eliminate the work involved in cycle detection in other MST algorithms: each node chooses a distinct rank, and connects to the closest node of higher rank. We consider two variants of the NNT algorithms, obtained by two ways of choosing the ranks: (i) Random NNT, in which each node chooses a rank randomly, and (ii) Directional NNT, in which each node uses directional information for choosing the rank. We show provable bounds on the performance of these algorithms in instances obtained by uniformly distributed points in the unit square. Finally, we perform extensive simulations of our algorithms. We tested our algorithms on both uniformly random distributions of points, and on realistic distributions of points in an urban setting. The cost of the tree found by the NNT algorithms is within a factor of 2 of the MST, but there is more than a tenfold saving on the energy and about a five fold saving on the number of messages sent. Also, our algorithms are significantly simpler to implement compared to, for instance, the GHS algorithm, which is essentially optimal with regards to the message complexity. Thus, our results demonstrate the first such tradeoff between the quality of approximation and the energy cost for spanning trees on ad hoc networks, and motivates similar considerations for other important problems.},
doi = {},
journal = {},
number = ,
volume = ,
place = {United States},
year = {2004},
month = {1}
}