Power Controlled Network Protocols for Multi- Rate Ad Hoc Networks Pan Li +, Qiang Shen*, Yuguang Fang +, and Hailin Zhang # +: EE, Florida University.

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Presentation transcript:

Power Controlled Network Protocols for Multi- Rate Ad Hoc Networks Pan Li +, Qiang Shen*, Yuguang Fang +, and Hailin Zhang # +: EE, Florida University *:Southwest Jiaotong University #: Xidain University IEEE Transactions on Wireless Communications, Vol. 8, No. 4, April

Outline Introduction Related Works MRPC-MAC protocol MRPC-Routing protocol Simulation Results Conclusions 2

Introduction In wireless ad hoc networks –Power control Save energy Increase spatial reuse –Multi-Rate supported Improve network throughput –What is right next hop relay?? Routing protocol 3

Related Works Power controlled MAC –Save the energy –Increase the throughput Power controlled Routing –Find an end-to-end path with saving energy Cross Layer Design –In this paper: MAC+ Routing protocol with power control for multi-rate ad hoc network 4

STAs –Single radio –Single channel –Multi-Rate supported : ARF MAC transmission failures or successes –Maintenance information of neighboring nodes i Assumption 5 j k m

MRPC-MAC protocol 6 ij k m IDP min,1 …P min,M P max FTime K1mW…1.7mW1.2mW150us

MRPC-MAC protocol Overhearing RTS/CTS 7

MRPC-Routing protocol 8

9

Simulation Results NS

Performance of MRPC-MAC 11

Performance of MRPC-Routing 12

MRPC Protocol 13

Impacts of the number of nodes 14

MRPC with mobility 15

Conclusions A new power controlled cross- layer –MRPC-MAC –MRPC-Routing Improve the network throughput Future work –Optimal the end-to-end path 16

Thank You. 17