Combating time-duration uncertainty of spectrum resources: A risk-reduced auction approach

2013 IEEE Global Communications Conference (GLOBECOM) Pub Date : 2013-12-01 DOI:10.1109/GLOCOM.2013.6831191

Guangen Wu, Pinyi Ren, Li Sun, Qinghe Du

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Abstract

Dynamic spectrum auction has been widely recognized as a promising solution to spectrum allocation in cognitive radio networks. However, the performance of dynamic spectrum auction is significantly affected by the uncertainty of the available time of spectrum opportunities. To combat this uncertainty, we propose risk-reduced auction (RRA) mechanism in this paper. Specifically, we study the scenario where a cognitive base station (CBS) auctions spectrum opportunities to secondary users (SUs). Modeling the traffic pattern of primary users (PUs) as an alternating renewal process, we derive the optimal auction time to maximize the auctioneer's utility to combat the time-duration uncertainty. In the meantime, a collision probability constraint is imposed to protect the PU's priority on spectrum utilization. We show analytically that both the auctioneer and the SUs are truthful and there is a weakly dominant equilibrium in the RRA algorithm. Moreover, the SUs bidding risk can be effectively reduced. Also conducted is a set of simulation evaluations which demonstrate the improvement of both auctioneers and SUs' utilities achieved by using our proposed RRA algorithm.

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对抗频谱资源持续时间的不确定性:降低风险的拍卖方法

动态频谱拍卖是认知无线电网络中一种很有前途的频谱分配方法。然而，频谱机会可用时间的不确定性对动态频谱拍卖的性能有很大影响。为了对抗这种不确定性，本文提出了风险降低拍卖(RRA)机制。具体来说，我们研究了认知基站(CBS)向辅助用户(su)拍卖频谱机会的场景。将主要用户(pu)的流量模式建模为交替更新过程，推导出最优拍卖时间，以最大化拍卖商的效用，以对抗时间-持续不确定性。同时，为了保护PU在频谱利用上的优先级，引入了碰撞概率约束。分析表明，拍卖商和SUs都是真实的，并且在RRA算法中存在弱优势均衡。同时，可以有效降低SUs的竞价风险。还进行了一组模拟评估，证明使用我们提出的RRA算法可以提高拍卖商和SUs的效用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2013 IEEE Global Communications Conference (GLOBECOM)

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