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业务非均匀分布CDMA系统中一种基于公平性保证的贪婪呼叫接纳控制策略

袁琴 方旭明

袁琴, 方旭明. 业务非均匀分布CDMA系统中一种基于公平性保证的贪婪呼叫接纳控制策略[J]. 电子与信息学报, 2008, 30(7): 1544-1547. doi: 10.3724/SP.J.1146.2006.01985
引用本文: 袁琴, 方旭明. 业务非均匀分布CDMA系统中一种基于公平性保证的贪婪呼叫接纳控制策略[J]. 电子与信息学报, 2008, 30(7): 1544-1547. doi: 10.3724/SP.J.1146.2006.01985
Yuan Qin, Fang Xu-ming. A Fairness-Based Greedy Call Admission Control Strategy with Non-uniform Traffic Distribution in CDMA Systems[J]. Journal of Electronics & Information Technology, 2008, 30(7): 1544-1547. doi: 10.3724/SP.J.1146.2006.01985
Citation: Yuan Qin, Fang Xu-ming. A Fairness-Based Greedy Call Admission Control Strategy with Non-uniform Traffic Distribution in CDMA Systems[J]. Journal of Electronics & Information Technology, 2008, 30(7): 1544-1547. doi: 10.3724/SP.J.1146.2006.01985

业务非均匀分布CDMA系统中一种基于公平性保证的贪婪呼叫接纳控制策略

doi: 10.3724/SP.J.1146.2006.01985
基金项目: 

南京大学计算机软件新技术国家重点实验室开放基金(A200605)资助课题

A Fairness-Based Greedy Call Admission Control Strategy with Non-uniform Traffic Distribution in CDMA Systems

  • 摘要: 呼叫接纳控制(Call Admission Control,CAC)是移动通信系统资源管理的主要内容之一。它通过接纳或者拒绝一种用户服务请求,来保持系统的正常运行,是平衡用户服务满意度与系统资源最大化利用矛盾的主要手段。该文主要研究小区间业务非均匀分布时基于公平性保证的动态CAC策略,提出了一种新的CAC策略,可适用于多业务且有变速率(Variable BitRate,VBR)业务的情况。该策略采用贪婪算法,用户请求接入以全系统的预期信干比作为判决条件,从而实现了不同到达率小区之间阻塞率的均衡,保证了用户接入的公平性,对于实际系统的应用具有重要的意义。
  • Wieselthier J E and Ephremides A. Fixed- and movableboundarychannel-access schemes for integrated voice/datawireless networks[J].IEEE Trans. on Communications.1995,43(1):64-74[2]Hong D and Rappaport S S. Traffic model and performanceanalysis for cellular mobile radio telephone systems withprioritized and nonprioritized handoff procedures[J].IEEETrans. on Vehicular Technology.1986, 35(3):77-92[3]Cui W and Shen X M. User movement tendency predictionand call admission control for cellular networks. 2000 IEEEInternational Conference on Communications, New Orleans,USA, 2000, 2: 670-674.[4]Liu Zhao and Zarki M E1. SIR-based call admission controlfor DS-CDMA cellular systems[J].IEEE Journal on SelectedAreas in Communications.1994, 12(4):638-644[5]Zhu Lidong, Ling Xiang, and Wu Shiqi. Call admissioncontrol in multiservices CDMA systems. InternationalConference on Circuits and Systems and West SinoExpositions, Chengdu, China, 2002, 1: 177-181.[6]Jeon W S and Jeong D G. Call admission control for mobilemultimedia communications with traffic asymmetry betweenuplink and downlink[J].IEEE Trans. on Vehicular Technology.2002, 50(1):59-66[7]Bozinovski M, Popovski P, and Gavrilovska L. Novelstrategy for call admission control in mobile cellular network.IEEE VTS-Fall VTC, Tokyo, Japan, 2000, 4: 1597-1602.[8]Tang Yat-Kwan, Misic J, Zhu Hua, and Chlamtac I. Anon-line hot-spot detection scheme in DS-CDMA networks -single traffic type. Global Telecommunications Conference,Dallas, USA, 2004, 6: 3911-3915.[9]Kim Jae-Man, Jeong Eui-Hoon, and Cho Jung-Wan. Calladmission control for non-uniform traffic in wireless networks[J].Electronics Letters.2000, 36(1):96-97[10]Akl R G, Hegde M V, Naraghi-Pour M, and Min P S. Calladmission control scheme for arbitrary traffic distribution inCDMA cellular systems. Wireless Communications andNetworking Conference, Chicago, USA, 2000: 1: 465-470.[11]Akl R G, Hegde M V, Naraghi-Pour M, and Min P S. Flexibleallocation of capacity in multi-cell CDMA networks.Vehicular Technology Conference, Washington University,1999, 2: 1643-1647.[12]Zhang Dandan and Fang Xuming. Capacity analysis and calladmission control scheme with imperfect power control inmultimedia CDMA networks, International Conference onCommunications, Circuits and Systems, Chengdu, China,2006, 2: 1352-1356.[13]So Jae-Woo. Adaptive traffic prediction based access controlin wireless CDMA systems supporting integratedvoice/data/video services[J].IEEE Communications Letters.2004, 8(12):703-705[14]Wan Peng, Du Zhimin, and Wu Weiling. A simple andefficient MPEG-4 video traffic model for wireless networkperformance evaluation, Wireless Communications andNetworking Conference, Beijing, China, 2004, 3: 1738-1742.[15]Gordon J. Pareto process as a model of self-similar packettraffic, IEEE Global Telecommunications Conference, NewJersey, USA, 1995, 3: 2232-2236.
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出版历程
  • 收稿日期:  2006-12-25
  • 修回日期:  2007-09-24
  • 刊出日期:  2008-07-19

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