Resource control for elastic traffic in CDMA networks
Proceedings of the 8th annual international conference on Mobile computing and networking
Beyond third generation mobile communication systems
ICCC '02 Proceedings of the 15th international conference on Computer communication
Design and analysis of a class-aware recursive loop scheduler for class-based scheduling
Performance Evaluation
Rate Allocation and Admission Control for Differentiated Services in CDMA Data Networks
IEEE Transactions on Mobile Computing
Utility based service differentiation in CDMA data networks
Wireless Networks
EURASIP Journal on Wireless Communications and Networking
A speed-aware handover system for wireless cellular networks based on fuzzy logic
Mobile Information Systems
Optimum multichannel random access with retransmission cut-off in OFDMA wireless systems
Proceedings of the 11th international symposium on Modeling, analysis and simulation of wireless and mobile systems
Mobile Information Systems
Service differentiation in third generation mobile networks
QofIS'02/ICQT'02 Proceedings of the 3rd international conference on quality of future internet services and internet charging and QoS technologies 2nd international conference on From QoS provisioning to QoS charging
CIC'02 Proceedings of the 7th CDMA international conference on Mobile communications
A fuzzy-based speed-aware handoff system for wireless cellular networks
NBiS'07 Proceedings of the 1st international conference on Network-based information systems
Journal of Mobile Multimedia
Delay and data rate decoupled fair queueing for multimedia services in wireless networks
Computer Communications
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We present a framework for quality of service provisioning over the air interfaces in future wireless networks, including 3G enhancement and 4G mobile networks. The framework is based on the paradigm of service classes, wherein each class can exhibit a characteristic behavior in terms of resource allocation over the air interface. Using this QoS framework, future wireless network operators can define their own sets of service classes, choose the preferred way of implementing the QoS behavior of these classes, and offer class-based pricing schemes. The user application can choose the service class that best suits its expectations in terms of QoS and cost of access. A class-based bandwidth scheduling scheme is described as a mechanism to implement this QoS framework over CDMA air interfaces. This scheme incorporates the paradigm of service classes, in conjunction with fair resource allocation and air interface congestion resilience, while allocating air interface bandwidth to mobile users