Analysis of transmission delay for a structured-priority packet-switching system
Computer Networks and ISDN Systems
Threshold-based interventions to optimize performance in preemptive priority queues
Queueing Systems: Theory and Applications
Reducing Delay in Preemptive Repeat Priority Queues
Operations Research
A preemptive resume queue with an expiry time for retained service
Performance Evaluation
IBM Journal of Research and Development
Cooperative cognitive radio with priority queueing analysis
ICC'09 Proceedings of the 2009 IEEE international conference on Communications
Average waiting time of packets with different priorities in cognitive radio networks
ISWPC'10 Proceedings of the 5th IEEE international conference on Wireless pervasive computing
(N,n)-preemptive priority queues
Performance Evaluation
IEEE Transactions on Multimedia
A bandwidth sharing approach to improve licensed spectrum utilization
IEEE Communications Magazine
Cognitive radio: brain-empowered wireless communications
IEEE Journal on Selected Areas in Communications
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We propose a new priority discipline called the T-preemptive priority discipline. Under this discipline, during the service of a customer, at every T time units the server periodically reviews the queue states of each class with different queue-review processing times. If the server finds any customers with higher priorities than the customer being serviced during the queue-review process, then the service of the customer being serviced is preempted and the service for customers with higher priorities is started immediately. We derive the waiting-time distributions of each class in the M/G/1 priority queue with multiple classes of customers under the proposed T-preemptive priority discipline. We also present lower and upper bounds on the offered loads and the mean waiting time of each class, which hold regardless of the arrival processes and service-time distributions of lower-class customers. To demonstrate the utility of the T-preemptive priority queueing model, we take as an example an opportunistic spectrum access in cognitive radio networks, where one primary (licensed) user and multiple (unlicensed) users with distinct priorities can share a communication channel. We analyze the queueing delays of the primary and secondary users in the proposed opportunistic spectrum access model, and present numerical results of the queueing analysis.