Radio Resource Management for Cellular CDMA Systems Supporting Heterogeneous Services

Authors:
Dongmei Zhao;Xuemin (Sherman) Shen;Jon W. Mark
Affiliations:
-;-;-
Venue:
IEEE Transactions on Mobile Computing
Year:
2003

Citing 18
Cited 9

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CDMA: principles of spread spectrum communication
Broadband integrated networks

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Distributed admission control for power-controlled cellular wireless systems

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Numerical Methods for Engineers: With Programming and Software Applications

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CDMA soft handoff analysis in the presence of power control error and shadowing correlation

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Efficient call admission control for heterogeneous services in wireless mobile ATM networks

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Capacity design and performance of call admission control in cellular CDMA systems

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Mobility modeling, location tracking, and trajectory prediction in wireless ATM networks

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Predictive QoS-based admission control for multiclass traffic in cellular wireless networks

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Hierarchical SIR and rate control on the forward link for CDMA data users under delay and error constraints

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Predictive mobility support for QoS provisioning in mobile wireless environments

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Supporting rate guarantee and fair access for bursty data traffic in W-CDMA

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An algorithm for combined cell-site selection and power control to maximize cellular spread spectrum capacity

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A two-level resource management scheme in wireless networks based on user-satisfaction

ACM SIGMOBILE Mobile Computing and Communications Review - Special Issue on Medium Access and Call Admission Control Algorithms for Next Generation Wireless Networks.: The Digital Library version of this issue has a corrected special issue title compared to the one in the print version of the issue.
Call-Level and Packet-Level Quality of Service and User Utility in Rate-Adaptive Cellular CDMA Networks: A Queuing Analysis

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Optimal Joint Session Admission Control in Integrated WLAN and CDMA Cellular Networks with Vertical Handoff

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Rate Allocation and Admission Control for Differentiated Services in CDMA Data Networks

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Radio resource management for a mobile network with TD-CDMA

Computer Communications
A Novel Analytical Framework for Integrated Cross-Layer Study of Call-Level and Packet-Level QoS in Wireless Mobile Multimedia Networks

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Architecture of Wireless Sensor Networks with Mobile Sinks: Multiple Access Case

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An efficient dynamic resource allocation algorithm for packet-switched communication networks based on Hopfield neural excitation method

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Class-based fair code allocation with delay guarantees for OVSF-CDMA and VSF-OFCDM in next-generation cellular networks

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Abstract

A novel radio resource management (RRM) scheme for the support of packet-switched transmission in cellular CDMA systems is proposed by jointly considering the physical, link, and network layer characteristics. The proposed resource management scheme is comprised of a combination of power distribution, rate allocation, service scheduling, and connection admission control. Power distribution allows individual connections to achieve their required signal-to-interference-plus-noise ratio, while rate allocation guarantees the required delay/jitter for real-time traffic and the minimum transmission rate requirement for non-real-time traffic. Efficient rate allocation is achieved by making use of the randomness and burstiness of the packet generation process. At the link layer, a packet scheduling scheme is developed based on information derived from power distribution and rate allocation to achieve quality of service (QoS) guarantee. Packet scheduling efficiently utilizes the system resources in every time slot and improves the packet throughput for non-real-time traffic. At the network layer, a connection admission control (CAC) scheme based on the lower layer resource allocation information is proposed. The CAC scheme makes use of user mobility information to reduce handoff connection dropping probability (HCDP). Theoretical analysis of the grade of service performance, in terms of new connection blocking probability, HCDP, and resource utilization, is given. Numerical results show that the proposed RRM scheme can achieve both effective QoS guarantee and efficient resource utilization.