Coverage, Connectivity, and Fault Tolerance Measures of Wireless Sensor Networks

Connectivity and sensing coverage are two fundamental concepts in the design of wireless sensor networks (WSNs). In this paper, we investigate the relationship between coverage and connectivity for k-covered WSNs (kCWSN), where every point in a field of interest is covered by at least k sensors. Furthermore, we compute the connectivity of kCWSN based on the degree of sensing coverage. We also propose measures of fault tolerance for kCWSN based on network connectivity and sensing coverage. Random distributions of the sensors in a field have been widely used in most of sensor networking protocols, in spite of the fact that these deployment techniques do not always provide complete, void-free coverage. On the contrary, we consider both deterministic and random sensor deployment strategies to meet coverage degree requirements of sensing applications. Using our Augmented Equilateral Triangle (AET) model, we prove that if the sensing coverage degree is k and R ≥ 2 × r , the network connectivity is higher than k. Precisely, our analysis of the geometric properties of deterministic sensor deployment strategies, demonstrates that sensing k-coverage and R ≥ √3 × r yield kCWSN connectivity that is higher than k. These findings are of practical use for network designers to build up sensing applications with prescribed degrees of sensing coverage, network connectivity and fault tolerance.

[1]  Rajeev Shorey,et al.  Mobile, Wireless and Sensor Networks: Technology, Applications and Future Directions , 2005 .

[2]  Xiaojiang Du,et al.  Maintaining Differentiated Coverage in Heterogeneous Sensor Networks , 2005, EURASIP J. Wirel. Commun. Netw..

[3]  Sajal K. Das,et al.  Coverage and Connectivity Issues in Wireless Sensor Networks , 2005 .

[4]  Jie Wu,et al.  Energy-efficient coverage problems in wireless ad-hoc sensor networks , 2006, Comput. Commun..

[5]  Himanshu Gupta,et al.  Fault tolerant connected sensor cover with variable sensing and transmission ranges , 2005, 2005 Second Annual IEEE Communications Society Conference on Sensor and Ad Hoc Communications and Networks, 2005. IEEE SECON 2005..

[6]  Xiang-Yang Li,et al.  Coverage in Wireless Ad Hoc Sensor Networks , 2003, IEEE Trans. Computers.

[7]  Guoliang Xing,et al.  Integrated coverage and connectivity configuration in wireless sensor networks , 2003, SenSys '03.

[8]  Sajal K. Das,et al.  On computing conditional fault-tolerance measures for k-covered wireless sensor networks , 2006, MSWiM '06.

[9]  Di Tian,et al.  Connectivity maintenance and coverage preservation in wireless sensor networks , 2004, Canadian Conference on Electrical and Computer Engineering 2004 (IEEE Cat. No.04CH37513).

[10]  Ajoy Kumar Datta,et al.  Self-* distributed query region covering in sensor networks , 2005, 24th IEEE Symposium on Reliable Distributed Systems (SRDS'05).

[11]  Samir R. Das,et al.  Connected sensor cover: self-organization of sensor networks for efficient query execution , 2006, TNET.

[12]  Miodrag Potkonjak,et al.  Worst and best-case coverage in sensor networks , 2005, IEEE Transactions on Mobile Computing.

[13]  Vlady Ravelomanana,et al.  Extremal properties of three-dimensional sensor networks with applications , 2004, IEEE Transactions on Mobile Computing.

[14]  Guillaume Chelius,et al.  Lower and Upper Bounds for Minimum Energy Broadcast and Sensing Problems in Sensor Networks , 2005, 11th International Conference on Parallel and Distributed Systems (ICPADS'05).

[15]  Sonia Martínez,et al.  Coverage control for mobile sensing networks , 2002, IEEE Transactions on Robotics and Automation.

[16]  Himanshu Gupta,et al.  Connected sensor cover: self-organization of sensor networks for efficient query execution , 2003, IEEE/ACM Transactions on Networking.

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

[18]  R. Srikant,et al.  Unreliable sensor grids: coverage, connectivity and diameter , 2003, IEEE INFOCOM 2003. Twenty-second Annual Joint Conference of the IEEE Computer and Communications Societies (IEEE Cat. No.03CH37428).

[19]  B. Ripley,et al.  Introduction to the Theory of Coverage Processes. , 1989 .

[20]  Jennifer C. Hou,et al.  FLSS: a fault-tolerant topology control algorithm for wireless networks , 2004, MobiCom '04.

[21]  Jennifer C. Hou,et al.  Maintaining Sensing Coverage and Connectivity in Large Sensor Networks , 2005, Ad Hoc Sens. Wirel. Networks.