Plain Text:
S. Misra, T. Ojha and A. Mondal, "Game-Theoretic Topology Controlfor Opportunistic Localization in Sparse Underwater Sensor Networks," in IEEE Transactions on Mobile Computing, vol. 14, no. 5, pp. 990-1003, 1 May 2015.
doi: 10.1109/TMC.2014.2338293
keywords: {game theory;marine communication;sensor placement;spatiotemporal phenomena;telecommunication network topology;wireless sensor networks;game theoretic topology control;sparse underwater sensor network;OLTC;opportunistic localization by topology control;UWSN;spatio-temporal relation;single-leader multifollower Stackelberg game;socially optimal Stackelberg-Nash-Cournot Equilibrium;NS-3 based simulation;energy efficiency;Topology;Games;Network topology;Energy consumption;Mobile computing;Global Positioning System;Wireless sensor networks;Opportunistic localization;game theory;topology control;sparse UWSNs;oligopoly},
URL: http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=6853401&isnumber=7065387
BibTeX:
@ARTICLE{6853401,
author={S. {Misra} and T. {Ojha} and A. {Mondal}},
journal={IEEE Transactions on Mobile Computing},
title={Game-Theoretic Topology Controlfor Opportunistic Localization in Sparse Underwater Sensor Networks},
year={2015},
volume={14},
number={5},
pages={990-1003},
keywords={game theory;marine communication;sensor placement;spatiotemporal phenomena;telecommunication network topology;wireless sensor networks;game theoretic topology control;sparse underwater sensor network;OLTC;opportunistic localization by topology control;UWSN;spatio-temporal relation;single-leader multifollower Stackelberg game;socially optimal Stackelberg-Nash-Cournot Equilibrium;NS-3 based simulation;energy efficiency;Topology;Games;Network topology;Energy consumption;Mobile computing;Global Positioning System;Wireless sensor networks;Opportunistic localization;game theory;topology control;sparse UWSNs;oligopoly},
doi={10.1109/TMC.2014.2338293},
ISSN={2161-9875},
month={May},}