MODELING MULTI-TRAFFIC ADMISSION CONTROL IN OFDMA SYSTEM USING COLORED PETRI NET 被引量：1

MODELING MULTI-TRAFFIC ADMISSION CONTROL IN OFDMA SYSTEM USING COLORED PETRI NET

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摘要 Call Admission Control (CAC) is one of the key traffic management mechanisms that must be deployed in order to meet the strict requirements for dependability imposed on the services provided by modern wireless networks. In this paper, we develop an executable top-down hierarchical Colored Petri Net (CPN) model for multi-traffic CAC in Orthogonal Frequency Division Multiple Access (OFDMA) system. By theoretic analysis and CPN simulation, it is demonstrated that the CPN model is isomorphic to Markov Chain (MC) assuming that each data stream follows Poisson distribution and the corresponding arrival time interval is an exponential random variable, and it breaks through MC's explicit limitation, which includes MC's memoryless property and proneness to state space explosion in evaluating CAC process. Moreover, we present four CAC schemes based on CPN model taking into account call-level and packet-level Quality of Service (QoS). The simulation results show that CPN offers significant advantages over MC in modeling CAC strategies and evaluating their performance with less computational complexity in addition to its flexibility and adaptability to different scenarios. Call Admission Control （CAC） is one of the key traffic management mechanisms that must be deployed in order to meet the strict requirements for dependability imposed on the services provided by modern wireless networks. In this paper, we develop an executable top-down hierarchical Colored Petri Net （CPN） model for multi-traffic CAC in Orthogonal Frequency Division Multiple Access （OFDMA） system. By theoretic analysis and CPN simulation, it is demonstrated that the CPN model is isomorphic to Markov Chain （MC） assuming that each data stream follows Poisson distribution and the corresponding arrival time interval is an exponential random variable, and it breaks through MC＇s explicit limitation, which includes MC＇s memoryless property and proneness to state space explosion in evaluating CAC process. Moreover, we present four CAC schemes based on CPN model taking into account call-level and packet-level Quality of Service （QoS）. The simulation results show that CPN offers significant advantages over MC in modeling CAC strategies and evaluating their performance with less computational complexity in addition to its flexibility and adaptability to different scenarios.

作者 Yao Yuanyuan Lu Yanhui Yang Shouyi

机构地区 School of Information Engineering

出处《Journal of Electronics(China)》 2012年第6期509-514,共6页 电子科学学刊（英文版）

基金 Supported by the National Natural Science Foundation of China (No. 61271421) the Education Department of Henan Province (No. 2011GGJS-002 and No. 12A510023)

关键词 Orthogonal Frequency Division Multiple Access (OFDMA) Call admission control Colored Petri Net (CPN) Multi-traffic Markov Chain (MC) Orthogonal Frequency Division Multiple Access （OFDMA） Call admission control Colored Petri Net （CPN） Multi-traffic Markov Chain （MC）

分类号 TN92 [电子电信—通信与信息系统]

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2012年第6期

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