Research Article Open Access

Utility-based Scheduling Frameworks for Efficient Quality-of-Service Differentiation in a Mixture of Real-time and Non-real-time Traffics

Olalekan Bello1, Hushairi Zen1, AL-Khalid Othman1 and Khairuddin Abdul Hamid2
  • 1 University of Malaysia, Malaysia
  • 2 University Malaysia of Computer Science and Engineering, Malaysia

Abstract

This paper proposes a utility-based scheduling framework for efficient differentiation of users’ Quality-of-Service (QoS) in a broadband wireless access system involving heterogeneous mixed traffic flows. The utility-based scheduling framework, called Maximum QoS Satisfaction (MQS), is based on three novel Radio Resource Allocation (RRA) techniques; delay-based scheduling policy for Real-Time (RT), minimum-rate-based scheduling policy for Non-Real-Time (NRT) and a throughput-based scheduling policy for Best-Effort (BE) services. Simulation study shows that MQS achieves superior performances in terms of average system throughput and user satisfaction both in single and heterogeneous mixed traffic scenarios, when compared to some existing ones.

Journal of Computer Science
Volume 11 No. 7, 2015, 845-854

DOI: https://doi.org/10.3844/jcssp.2015.845.854

Submitted On: 28 July 2015 Published On: 19 October 2015

How to Cite: Bello, O., Zen, H., Othman, A. & Hamid, K. A. (2015). Utility-based Scheduling Frameworks for Efficient Quality-of-Service Differentiation in a Mixture of Real-time and Non-real-time Traffics. Journal of Computer Science, 11(7), 845-854. https://doi.org/10.3844/jcssp.2015.845.854

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Keywords

  • BWASs
  • QoS
  • Utility
  • Throughput
  • User Satisfaction