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Modeling In-Network Processing and Aggregation in Sensor Networks Ajay Mahimkar The University of Texas at Austin March 24, 2004.

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Presentation on theme: "Modeling In-Network Processing and Aggregation in Sensor Networks Ajay Mahimkar The University of Texas at Austin March 24, 2004."— Presentation transcript:

1 Modeling In-Network Processing and Aggregation in Sensor Networks Ajay Mahimkar mahimkar@ece.utexas.edu The University of Texas at Austin March 24, 2004

2 Sensor Networks – Goals & Challenges Distributed Sensing of physical phenomena Establish paths between point(s) of interest & observer(s) Base Station / Aggregators Sensor Networks are extremely resource-constrained Energy – the most critical Lifetime & utility of sensor network – determined by energy usage Computational and Communication Capabilities Communication Pattern Data-centric Applications Battlefield Surveillance, Nuclear Attack Detection, Real-time Traffic Monitoring, Wireless Meter Reading

3 Problem Statement Energy consumption occurs due to Sensing Data processing and communication Protocols that extend network lifetime are useful Query Dissemination and Information Aggregation in an energy-efficient way

4 Existing Approaches Directed Diffusion [C. Intanagonwiwat, 2003] The base station / end user queries the network by broadcasting interest message Sensors possessing the information respond via multi-hop communication Information aggregated at each hop

5 Existing Approaches (contd….) Power Efficient Algorithms LEACH (Low Energy Adaptive Clustering Hierarchy) [W. Heinzelman, 2000] Clusters formed in a self-organized manner in each round of data collection Cluster-Head responsible for data aggregation PEGASIS (Power-Efficient Gathering in Sensor Information Systems) [S. Lindsey, 2002] Instead of multiple cluster-heads (as in LEACH), only one designated node sends the aggregated data to base station Key idea – form a chain among sensor nodes PEDAP (Power-Efficient Data gathering and Aggregation Protocol) [H. O. Tan, 2003] MST based routing scheme using energy as the metric

6 Evaluation PEGASIS outperforms LEACH by avoiding the overhead of dynamic cluster-head formation PEDAP better than both LEACH & PEGASIS Balances the energy consumption among the nodes

7 Project Plan Model sensors Radio Battery Model Model communication paradigm Communication schedule Sleep/wake-up nodes Asynchronous triggering of sensors Performance Model In-network Processing and Data Aggregation Integrating with network simulators NS-2, TinyOS (TOSSIM), OPNET, Ptolemy-II

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