An Energy Efficient Search in Dense Wireless Sensor Network

Since sensor networks can be thought of as a distributed database system, several architectures proposed to interface the application to the sensor network through querying protocol. However sensor networks are so massively distributed, so careful consideration should be put into the efficient organization of data and the execution of queries. Here we consider the problem of information discovery in a densely deployed wireless Sensor Network (WSN) where the initiator of search is unaware of target information. A new type of protocol based on Increasing Ray Search (IRS) which is an energy efficient and scalable search protocol is discussed. The basic principle of this protocol is to route the search packet along a set of trajectories called rays that maximizes the likelihood of discovering of the target information by consuming least number of transmission. The rays are organized such that if the search packet travels along all these rays, then the entire terrain area will be covered by its transmissions. We compare IRS with existing query resolution techniques for unknown target location such as, Expanding Ring Search, Random Walk Search, and Gossip Search. We prove by theoretical analysis that IRS is independent of node density.

[1]  Wei Hong,et al.  Proceedings of the 5th Symposium on Operating Systems Design and Implementation Tag: a Tiny Aggregation Service for Ad-hoc Sensor Networks , 2022 .

[2]  Sanjay Jha,et al.  Optimising expanding ring search for multi-hop wireless networks , 2004, IEEE Global Telecommunications Conference, 2004. GLOBECOM '04..

[3]  Bhaskar Krishnamachari,et al.  Modeling Search Costs in Wireless Sensor Networks , 2007, 2007 5th International Symposium on Modeling and Optimization in Mobile, Ad Hoc and Wireless Networks and Workshops.

[4]  Wei Hong,et al.  The design of an acquisitional query processor for sensor networks , 2003, SIGMOD '03.

[5]  Ying Zhang,et al.  Combs, needles, haystacks: balancing push and pull for discovery in large-scale sensor networks , 2004, SenSys '04.

[6]  Mingyan Liu,et al.  Controlled Flooding Search in a Large Network , 2007, IEEE/ACM Transactions on Networking.

[7]  Ian F. Akyildiz,et al.  Sensor Networks , 2002, Encyclopedia of GIS.

[8]  N. Sadagopan,et al.  The ACQUIRE mechanism for efficient querying in sensor networks , 2003, Proceedings of the First IEEE International Workshop on Sensor Network Protocols and Applications, 2003..

[9]  Hong Shen,et al.  RandomWalk Routing for Wireless Sensor Networks , 2005, Sixth International Conference on Parallel and Distributed Computing Applications and Technologies (PDCAT'05).

[10]  Joseph Y. Halpern,et al.  Gossip-based ad hoc routing , 2002, Proceedings.Twenty-First Annual Joint Conference of the IEEE Computer and Communications Societies.

[11]  João Barros,et al.  Random Walks on Sensor Networks , 2007, 2007 5th International Symposium on Modeling and Optimization in Mobile, Ad Hoc and Wireless Networks and Workshops.

[12]  Bhaskar Krishnamachari,et al.  Optimizing Data Replication for Expanding Ring-based Queries in Wireless Sensor Networks , 2006, 2006 4th International Symposium on Modeling and Optimization in Mobile, Ad Hoc and Wireless Networks.

[13]  Ramesh Govindan,et al.  The Sensor Network as a Database , 2002 .