A reverse link power control algorithm based on game theory for multi-cell wireless data networks

Teerapabkajorndet, Wiklom; Krishnamurthy, P.

doi:10.1109/glocomw.2004.1417623

Cited by 6 publications

(2 citation statements)

References 24 publications

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“…In multicell interplay situation, resource allocation strategy of each cell affects mutual performance; however, game theory provides an effective mechanism and brings novel solutions for the optimization problem of resource allocation. Several kinds of game theory‐based algorithms were proposed to solve multicell power control problem of code division multiple access systems in , but they all chose the optimal cells first and then distributed power among users in a certain cell. As well, there exist great differences between code division multiple access system and OFDM access (OFDMA)‐based LTE‐A system, which lead to distinct deployment mechanisms of algorithm.…”

Section: Introductionmentioning

confidence: 99%

A multi‐cell adaptive resource allocation scheme based on potential game for ICIC in LTE‐A

Ling

et al. 2013

Int J Communication

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SUMMARY Intercell interference coordination in Third Generation Partnership Project long‐term evolution‐advanced system has received much attention both from the academia and the standardization communities. Moreover, the network architecture of long‐term evolution‐advanced system is modified to take into account coordinated transmission. In this article, we study the dynamic resource allocation problem and potential game theory and propose a multicell adaptive distributed resource allocation algorithm based on potential game. The allocation process is divided into two steps; subchannel is allocated first, and then, transmitted power is optimized dynamically according to a novel pricing factor. Besides, existence and uniqueness of Nash equilibrium of the proposed game model are assured. As a result, intercell interference is well coordinated. Simulation results show that transmitted power is saved efficiently and system fairness is improved to a large extent, accompanied with good performance gain of total and cell‐edge throughputs. Copyright © 2013 John Wiley & Sons, Ltd.

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Section: Introductionmentioning

confidence: 99%

A multi‐cell adaptive resource allocation scheme based on potential game for ICIC in LTE‐A

Ling

et al. 2013

Int J Communication

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“…In References [15] and [16] multi-stage games are formulated for ALOHA-style selfish accesses assuming that a transmission is either successful (without collision) or failed (with collision), and the problem is further studied in Reference [17] by incorporating the capture effect. Distributed power control in wireless networks based on game theory can be found in References [18,19]. In Reference [20] transmission throughput per unit power consumption is defined as the game payoff for competing nodes to access a shared channel.…”

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confidence: 99%

Access control in ad hoc networks with selfish nodes

Zhao

2006

Wireless Communications

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We propose an access control scheme for ad hoc networks where nodes compete for transmissions selfishly in order to maximize their own payoffs. A game theory-based model is first formulated and an equilibrium transmission probability is derived based on the total number of competing nodes, packet transmission error probabilities and other parameters. Packet transmission performance, including both transmission throughput and delay, is then analyzed. Our results show that the proposed channel access scheme allows good spatial reuse of the same channel and its saturation throughput can be much higher than the physical transmission rate of the channel under relatively good channel conditions. The mean packet transmission delay can be kept very low (e.g., less than 10 ms) so long as the offered traffic load is below the capacity. The main advantage of this access control scheme is that it allows fair channel access even nodes are selfish and do not corporate with each other in competing for transmissions.

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Forward Link Power Control Based on Stackelberg Game for Multicell Wireless Network

Zhu

2009

2009 IEEE 70th Vehicular Technology Conference Fall

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A reverse link power control algorithm based on game theory for multi-cell wireless data networks

Cited by 6 publications

References 24 publications

A multi‐cell adaptive resource allocation scheme based on potential game for ICIC in LTE‐A

A multi‐cell adaptive resource allocation scheme based on potential game for ICIC in LTE‐A

Access control in ad hoc networks with selfish nodes

Forward Link Power Control Based on Stackelberg Game for Multicell Wireless Network

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