TR2009-046

Analysis, Insights and Generalization of a Fast Decentralized Relay Selection Mechanism


    •  Shah, V., Mehta, N.B., Yim, R., "Analysis, Insights and Generalization of a Fast Decentralized Relay Selection Mechanism", IEEE International Conference on Communications (ICC), June 2009.
      BibTeX TR2009-046 PDF
      • @inproceedings{Shah2009jun,
      • author = {Shah, V. and Mehta, N.B. and Yim, R.},
      • title = {Analysis, Insights and Generalization of a Fast Decentralized Relay Selection Mechanism},
      • booktitle = {IEEE International Conference on Communications (ICC)},
      • year = 2009,
      • month = jun,
      • url = {https://www.merl.com/publications/TR2009-046}
      • }
  • Research Area:

    Communications

Abstract:

Relay selection for cooperative communications has attracted considerable research interest recently. While several criteria have been proposed for selecting one or more relays and analyzed, mechanisms that perform the selection in a distributed manner have received relatively less attention. In this paper, we analyze a splitting algorithm for selecting the single best relay amongst a known number of active nodes in a cooperative network. We develop new and exact asymptotic analysis for computer the average number of slots required to resolve the best relay. We then propose and analyze a new algorithm that addresses the general problem of selecting the best Q greater-than-or-equal 1 relays. Regardless of the number of relays, the algorithm selects the best two relays within 4.406 slots and the best three within 6.491 slots, on average. Our analysis also brings out an intimate relationship between multiple access selection and multiple access control algorithms.

 

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      Date: June 14, 2009
      Where: IEEE International Conference on Communications (ICC)
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      Brief
      • The papers "Analysis, Insights and Generalization of a Fast Decentralized Relay Selection Mechanism" by Shah, V., Mehta, N.B. and Yim, R., "Optimization of Split-and-Combine Relaying" by Yim, R., Molisch, A.F. and Zhang, J., "Pilot Matrix Design for Interim Channel Estimation in Two-Hop MIMO AF Relay Systems" by Ma, J., Orlik, P., Zhang, J., Kuze, T., Iura, H. and Li, G.-Y. and "A Graph Approach to Dynamic Fractional Frequency Reuse (FFR) in Multi-Cell OFDMA Networks" by Chang, R.Y., Tao, Z., Zhang, J. and Kuo, J. were presented at the IEEE International Conference on Communications (ICC).
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