Resolving the Connectivity-Throughput Trade-Off in Random Networks

The discrepancy between the upper bound on throughput scaling in wireless networks and the throughput scaling in random networks is due to the connectivity-throughput trade-off. In this paper, nodes know their location and employ power control. The expected throughput-progress is analyzed for a nearest neighbor forwarding strategy, which benefits from power control by reducing spatial contention. By this, the connectivity-throughput trade-off is resolved and the upper bound is achieved. A lot of effort has been made to analyze the capacity of wireless networks within the last decade.

Provided by: Karlsruhe Institute of Technology Topic: Mobility Date Added: Feb 2011 Format: PDF

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