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Demand-aware traffic cooperation for self-organizing cognitive small-cell networks

Author

Listed:
  • Changhua Yao
  • Lei Zhu
  • Yongxing Jia
  • Lei Wang

Abstract

This article investigates the problem of efficient spectrum access for traffic demands of self-organizing cognitive small-cell networks, using the coalitional game approach. In particular, we propose a novel spectrum and time two-dimensional Traffic Cooperation Coalitional Game model which aims to improve the network throughput. The main motivation is to complete the data traffics of users, and the main idea is to make use of spectrum resource efficiently by reducing mutual interference in the spectrum dimension and considering cooperative data transmission in the time dimension at the same time. With the approach of coalition formation, compared with the traditional binary order in most existing coalition formation algorithms, the proposed functional order indicates a more flexibly preferring action which is a functional value determined by the environment information. To solve the distributed self-organizing traffic cooperation coalition formation problem, we propose three coalition formation algorithms: the first one is the Binary Preferring Traffic Cooperation Coalition Formation Algorithm based on the traditional Binary Preferring order; the second one is the Best Selection Traffic Cooperation Coalition Formation Algorithm based on the functional Best Selection order to improve the converging speed; and the third one is the Probabilistic Decision Traffic Cooperation Coalition Formation Algorithm based on the functional Probabilistic Decision order to improve the performance of the formed coalition. The proposed three algorithms are proved to converge to Nash-stable coalition structure. Simulation results verify the theoretic analysis and the proposed approaches.

Suggested Citation

  • Changhua Yao & Lei Zhu & Yongxing Jia & Lei Wang, 2019. "Demand-aware traffic cooperation for self-organizing cognitive small-cell networks," International Journal of Distributed Sensor Networks, , vol. 15(1), pages 15501477188, January.
    • Handle: RePEc:sae:intdis:v:15:y:2019:i:1:p:1550147718817289
    DOI: 10.1177/1550147718817289
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    References listed on IDEAS

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    1. Fudenberg, Drew & Levine, David, 1998. "Learning in games," European Economic Review, Elsevier, vol. 42(3-5), pages 631-639, May.
    2. Krzysztof R. Apt & Andreas Witzel, 2009. "A Generic Approach To Coalition Formation," International Game Theory Review (IGTR), World Scientific Publishing Co. Pte. Ltd., vol. 11(03), pages 347-367.
    3. Drew Fudenberg & David K. Levine, 1998. "The Theory of Learning in Games," MIT Press Books, The MIT Press, edition 1, volume 1, number 0262061945, December.
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    Cited by:

    1. Sergio Jesús González-Ambriz & Rolando Menchaca-Méndez & Sergio Alejandro Pinacho-Castellanos & Mario Eduardo Rivero-Ángeles, 2024. "A Spectral Gap-Based Topology Control Algorithm for Wireless Backhaul Networks," Future Internet, MDPI, vol. 16(2), pages 1-17, January.

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