A Target-Oriented Conflict Graph-based Approach for the Coverage Problem in Directional Sensor Networks

Maximizing target coverage with minimum number of sensors is an elementary problem in the area of wireless sensor networks which has many applications in monitoring, tracking, security, and surveillance systems. The recent increase in the use of directional sensors adds a new dimension to the problem. As the problem is understood to be NP-hard, most of the previous works attempt greedy heuristics for achieving a near-optimal solutions. Unlike previous research works, we take a graph theoretic target-oriented approach to the problem and provide a novel solution based on a polynomial time graph algorithm. The usage of graph models minimizes the run time complexity while simultaneously improves the solution’s optimality. In over-provisioned Visual Sensor Networks where there exist sufficient number of sensors to cover all the targets, the suggested approach exhibits promising results.

[1]  Ashikur Rahman,et al.  A Graph Theoretic Approach for Maximizing Target Coverage using Minimum Directional Sensors in Randomly Deployed Wireless Sensor Networks , 2018, 2018 5th International Conference on Networking, Systems and Security (NSysS).

[2]  Nael B. Abu-Ghazaleh,et al.  Coverage algorithms for visual sensor networks , 2013, TOSN.

[3]  Ashikur Rahman,et al.  On balanced k-coverage in visual sensor networks , 2015, J. Netw. Comput. Appl..

[4]  Shunzheng Yu,et al.  A fuzzy k-coverage approach for RFID network planning using plant growth simulation algorithm , 2014, J. Netw. Comput. Appl..

[5]  S. Sitharama Iyengar,et al.  Grid Coverage for Surveillance and Target Location in Distributed Sensor Networks , 2002, IEEE Trans. Computers.

[6]  Giordano Fusco,et al.  Selection and Orientation of Directional Sensors for Coverage Maximization , 2009, 2009 6th Annual IEEE Communications Society Conference on Sensor, Mesh and Ad Hoc Communications and Networks.

[7]  R. Lienhart,et al.  On the optimal placement of multiple visual sensors , 2006, VSSN '06.

[8]  Luiz Affonso Guedes,et al.  Enhancing Redundancy in Wireless Visual Sensor Networks for Target Coverage , 2014, WebMedia.

[9]  Alhussein A. Abouzeid,et al.  Coverage by directional sensors in randomly deployed wireless sensor networks , 2006, J. Comb. Optim..

[10]  Vinay Kolar,et al.  Coverage in visual sensor networks with Pan-Tilt-Zoom cameras: The MaxFoV problem , 2014, IEEE INFOCOM 2014 - IEEE Conference on Computer Communications.

[11]  Ashikur Rahman,et al.  The coverage problem in visual sensor networks: A target oriented approach , 2016, J. Netw. Comput. Appl..