Adaptive cost efficient deployment strategy for homogeneous wireless camera sensors

Availability of low cost low power camera sensors is likely to make possible applications that may otherwise have been infeasible. In this paper we investigate a cost efficient camera sensor deployment strategy based on random deployment of homogeneous sensors to monitor and/or surveillance a region...

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Bibliographic Details
Published in:Ad hoc networks 2011-07, Vol.9 (5), p.713-726
Main Authors: Lin, Yen-Ting, Saluja, Kewal K., Megerian, Seapahn
Format: Article
Language:English
Subjects:
Camera sensors
Cameras
Cost engineering
Cost optimization
Deployment
Low cost
Mathematical analysis
Monitors
Obstacles
Sensor coverage
Sensors
Simulation
Strategy
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Summary:Availability of low cost low power camera sensors is likely to make possible applications that may otherwise have been infeasible. In this paper we investigate a cost efficient camera sensor deployment strategy based on random deployment of homogeneous sensors to monitor and/or surveillance a region of interest. We assume that there are costs associated with the sensors as well as with the deployments and our goal is to minimize the total cost while satisfying the desired coverage requirement. We consider two cases which assume the sensing field is obstacle free or with obstacles, and we develop analytical methods to derive the expected coverage of a single sensor as well as the joint coverage for a given number of homogenous camera sensors. Following this we propose an adaptive sensor deployment strategy, which deploys different number of sensors in each iteration, based on our analytical method. We then evaluate the expected cost of our deployment strategy by deriving expressions for the number of deployments and the number of sensors deployed during each deployment as a function of the probability distributions of joint coverage by sensors. We carry out simulation studies to validate the analytical results. Simulation studies are also used to demonstrate that our deployment strategy leads to near optimal values of sensors and deployments and hence achieves the overall low cost.
ISSN:1570-8705
1570-8713
DOI:10.1016/j.adhoc.2010.07.001