H. Ji and C. Huang, "Non-cooperative uplink power control in cellular radio systems," Wireless Networks, vol. 4(3), pp. 233--240, April 1998.  Home/Search   Document Not in Database   Summary   Related Articles   Check

....the interference, and hence improving the overall performance. Although there exists a large body of work for voice traffic where SIR requirements for satisfactory service are fixed and well established, power control for wireless data networks has only recently been a topic of interest [1] 2] [3], 4] 5] 6] 7] Since the SIR requirements for a desired level of service vary from one individual user to another in wireless networks, the power control problem becomes also one of resource allocation. Recent studies [1] 4] 5] make use of concepts and tools from the field of economics, ....

.... makes use of noncooperative game theory [8] for uplink power control most appropriate, with the relevant solution concept being the noncooperative Nash equilibrium [9] Several studies exist in the literature that use game theoretic schemes to address the power control problem in a single cell [3], 1] In [9] we have made use of the conceptual framework of noncooperative game theory to obtain a distributed and market based control mechanism. We have not only proven the existence of a unique Nash equilibrium, but also established the stability of two different update algorithms under ....

H. Ji and C. Huang, "Non-cooperative uplink power control in cellular radio systems," Wireless Networks, vol. 4(3), pp. 233--240, April 1998.

....to send its own packets, it has to pay for it in credits, whereas if the node forwards a packet for the benefit of another node, it is rewarded with credits. Application of game theory to networking. Game theory has been used to solve problems both in fixed and cellular networks. Ji and Huang [JH98] apply the game theory for uplink power control in cellular networks. In [XSC01] Xiao et.al. describe an utility based power control framework for a cellular system. In [GM01] Goodman and Mandayam introduce the concept of network assisted power control to equalize signal to interference ratio ....

H. Ji, C-Y. Huang, "Non-Cooperative Uplink Power Control in Cellular Radio Systems," Wireless Networks (WINET), vol. 4, pp 233-240, Apr. 1998

....a different utility function, e.g. a step function for voice service and an increasing concave function for data service. Prior work on utility based resource allocation in wireless networks has been concerned with a voice service only , as in [4] 6] 5] or a data service only, as in [1] [2], 3] 7] The authors in [1] 2] 3] model a distributed power control scheme as a non cooperative game, and show that pricing improves the outcome. References [4] 6] 5] show that pricing can be used to achieve the maximum utility. The most closely related work to the work presented here ....

....a step function for voice service and an increasing concave function for data service. Prior work on utility based resource allocation in wireless networks has been concerned with a voice service only , as in [4] 6] 5] or a data service only, as in [1] 2] 3] 7] The authors in [1] [2], 3] model a distributed power control scheme as a non cooperative game, and show that pricing improves the outcome. References [4] 6] 5] show that pricing can be used to achieve the maximum utility. The most closely related work to the work presented here is [6] 5] 7] in which ....

H. Ji and D. Huang, "Non-cooperative uplink power control in cellular radio systems", in Wireless Networks, (4): 233-240, 1998.

....nuglets or credits. Plaggemeier et al. PWL03] study the impact of incentive mechanisms in general. Application of game theory to networking. Game theory has been used to solve problems both in fixed and cellular networks. Researchers addressed problems like power control (e.g. Ji and Huang [JH98]) resource allocation (e.g. Korilis et al. KLO95] and pricing (e.g. Ya che et al. YMR00] Cooperation studies in other areas of science. The emergence of cooperation has also been previously studied in an economic context using the Iterated Prisoner s Dilemma (IPD) game as an underlying ....

H. Ji, C-Y. Huang, "Non-Cooperative Uplink Power Control in Cellular Radio Systems, " Wireless Networks (WINET), vol. 4, pp 233-240, Apr. 1998

....supported by the Motorola Northwestern Center for Telecommunications, by NSF under grant CCR 9903055, and by DARPA under grant N66001 00 1 8935. Related work on utility based resource allocation for cellular systems has been presented in [1] 6] Reverselink power allocation is studied in [1] [2], while [3] 6] focus on the forward link. This work is a continuation of [5] However, in contrast to [5] in which only a single service class is considered, this paper considers a voice service with multiple service classes. In addition to utility maximization, we also consider two cell revenue ....

H. Ji and D. Huang, "Non-cooperative uplink power control in cellular radio systems", inWireless Networks, (4): 233-240, 1998

....game with a pricing scheme is superior to one without pricing. One de ciency of this game setup, however, is that it does not guarantee social optimality for the equilibrium points. Linear and exponential utility functions based on carrier(signal) to interference ratio are also proposed in [8]. The existence of a Nash equilibrium is shown under some assumptions on the utility functions, and an algorithm for solving the noncooperative power control game is suggested. In this paper, we propose a power control game similar to the ones in [8, 6] In the model we adopt, however, we use a ....

....ratio are also proposed in [8] The existence of a Nash equilibrium is shown under some assumptions on the utility functions, and an algorithm for solving the noncooperative power control game is suggested. In this paper, we propose a power control game similar to the ones in [8, 6]. In the model we adopt, however, we use a cost function de ned as the di erence between a linear pricing scheme proportional to transmitted power, and a logarithmic, strictly concave utility function based on SIR of the mobile. Furthermore, the utility function is made user speci c by ....

H. Ji and C. Huang, \Non-cooperative uplink power control in cellular radio systems," Wireless Networks, vol. 4(3), pp. 233-240, April 1998.

....paper is capable of overcoming this problem. The proposed power control algorithm is based on the formulation of the multiuser environment as a noncooperative game. This game theory point of view has appeared in several recent works that studied the power control problem for wireless networks [7] [10] These existing works typically focus on the 0733 8716 02 17.00 2002 IEEE Fig. 1. The DSL crosstalk environment. CDMA system, and the power control algorithms studied there considered only flat fading channels. In a DSL environment, the frequency selective nature of the channel is crucial ....

H. Ji and C.-Y. Huang, "Non-cooperative uplink power control in cellular radio systems," Wireless Networks, vol. 4, no. 3, pp. 233--240, 1998.

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H. Ji and C. Huang, "Non-cooperative uplink power control in cellular radio systems," Wireless Networks, vol. 4(3), pp. 233--240, April 1998.

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H. Ji and C. Huang, "Non-cooperative uplink power control in cellular radio systems," Wireless Networks, vol. 4(3), pp. 233-- 240, April 1998.

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H. Ji and C. Huang, "Non-cooperative uplink power control in cellular radio systems," Wireless Networks, vol. 4(3), pp. 233--240, April 1998.

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H. Ji and C. Huang, "Non-cooperative uplink power control in cellular radio systems," Wireless Networks, vol. 4 (3), pp. 233--240, April 1998.

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H. Ji, C. Huang, Non-cooperative uplink power control in cellular radio systems, Wireless Networks 4(3) (1998) 233--240.

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H. Ji and C. Huang, "Non-cooperative uplink power control in cellular radio systems," Wireless Networks, vol. 4(3), pp. 233--240, April 1998.

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H. Ji and C. Huang, "Non-cooperative uplink power control in cellular radio systems," Wireless Networks, vol. 4, no. 3, pp. 233--240, Apr. 1998.

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H. Ji and C. Huang. Non-cooperative uplink power control in cellular radio systems. Wireless Networks, 4(3):233-240, April, 1998.

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Ji H,Huang C. Non-cooperative uplink power control in cellular radio systems. Wireless Networks 1998;4(3):233--40.

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H. Ji and C. Huang, Non-cooperative uplink power control in cellular radio systems, Wireless Networks 4(3) (April 1998) 233--240. 670 ALPCAN ET AL.

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H. Ji and C. Y. Huang, "Non-cooperative uplink power control in cellular radio systems," Wireless Networks, vol. 4, pp.233-240, April 1998.

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H. Ji and C.-Y. Huang, "Non-cooperative uplink power control in cellular radio systems," ACM/Baltzer Wireless Networks Journal, vol. 4, pp. 233-- 240, 1998.

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H. Ji and C.-Y. Huang. Non-cooperative uplink power control in cellular radio systems. ACM/Baltzer Wireless Networks Journal, 4:233--240, 1998.

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H. Ji and C.-Y. Huang. Non-cooperative uplink power control in cellular radio systems. Wireless Networks, 4:233-240, 1998.

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Ji H, Huang CY, "Non-cooperative uplink power control in cellular radio systems," Wireless Networks, 1998; 4(2): 233-240.

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H. Ji and C.-Y. Huang. Non-cooperative uplink power control in cellular radio systems. ACM/Baltzer Wireless Networks Journal, 4:233--240, 1998.

No context found.

Ji H, Huang CY, "Non-cooperative uplink power control in cellular radio systems," Wireless Networks, 1998; 4(2): 233-240.

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H. Ji and C. Huang. Non-cooperative uplink power control in cellular radio systems. Wireless Networks, 4(3):233-240, April, 1998.

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