Power Aware Visual Sensor Network for Wildlife Habitat Monitoring
For wireless sensor network researchers, this work provides heuristic solutions to the NP-complete coverage problem, but the approach is incremental, combining known techniques without major breakthroughs.
This paper addresses the coverage problem in camera sensor networks for wildlife habitat monitoring, aiming to extend network lifetime by selecting subsets of sensors to maintain coverage. Two heuristic algorithms are proposed to prioritize sensors based on visual and communicative properties, enabling graceful coverage degradation as sensors die.
One of the fundamental issue in wireless sensor network is conserving energy and thus extending the lifetime of the network. In this paper we investigate the coverage problem in camera sensor networks by developing two algorithms which consider network lifetime. Also, it is assumed that camera sensors spread randomly over a large area in order to monitor a designated air space. To increase the lifetime of the network, the density of distributed sensors could be such that a subset of sensors can cover the required air space. As a sensor dies another sensor should be selected to compensate for the dead one and reestablish the complete coverage. This process should be continued until complete coverage is not achievable by the existing sensors. Thereafter, a graceful degradation of the coverage is desirable. The goal is to elongate the lifetime of the network while maintaining a maximum possible coverage of the designated air space. Since the selection of a subset of sensors for complete coverage of the target area is an NP-complete problem we present a class of heuristics for this case. This is done by prioritizing the sensors based on their visual and communicative properties.