by D. Hamel, M. Chwastek, B. Farouk, K. Dandekar and M. Kam
Reference:
D. Hamel, M. Chwastek, B. Farouk, K. Dandekar, M. Kam, “A Computational Fluid Dynamics Approach for Optimization of a Sensor Network”, In 2006 IEEE International Workshop on Measurement Systems for Homeland Security, Contraband Detection and Personal Safety, pp. 38-42, 2006.
Bibtex Entry:
@INPROCEEDINGS{4107727,
author={D. Hamel and M. Chwastek and B. Farouk and K. Dandekar and M. Kam},
booktitle={2006 IEEE International Workshop on Measurement Systems for Homeland Security, Contraband Detection and Personal Safety},
title={A Computational Fluid Dynamics Approach for Optimization of a Sensor Network},
year={2006},
volume={},
number={},
pages={38-42},
keywords={biohazards;biological techniques;chemical hazards;computational fluid dynamics;distributed sensors;military systems;national security;surveillance;computational fluid dynamics simulations;CFD;optimization;sensor network;sensor placement algorithms;nuclear attack;biological attack;chemical attack;generic urban environment;unique attack locations;sensor locations;chemical agent;chlorine gas;simulated attack scenarios;contaminant-level detection;homeland security;urban dispersion;surveillance;Computational fluid dynamics;Chemical and biological sensors;Biosensors;Chemical sensors;Niobium compounds;Computational modeling;Terrorism;Sensor systems;Chemical technology;USA Councils;Homeland Security;Optimization;Sensor Networks;Sensor Placement;Computational Fluid Dynamics;Urban Dispersion},
doi={10.1109/MSHS.2006.314347},
ISSN={},
month={Oct},}