Maximization of user satisfaction in OFDMA systems using utility-based resource allocation
Author:
Affiliation:
1. Wireless Telecommunications Research Group (GTEL), Department of Teleinformatics Engineering (DETI); Federal University of Ceará (UFC), Pici Campus; PO Box 6005, Building 722 Fortaleza Brazil
Funder
CAPES/CNPq/FUNCAP/PNPD
Ericsson Innovation Center
Ericsson Research, Wireless Access Network Department
Publisher
Wiley
Subject
Electrical and Electronic Engineering,Computer Networks and Communications,Information Systems
Reference28 articles.
1. Analysis and comparison of scheduling techniques for a BWA OFDMA mobile system;Tarchi;Wiley Wireless Communications and Mobile Computing,2010
2. Performance evaluation of utility-based scheduling schemes with QoS guarantees in IEEE 802.16/WiMAX systems;Pitic;Wiley Wireless Communications and Mobile Computing,2010
3. Santos RB Lima FRM Freitas W Cavalcanti FRP QoS Based Radio Resource Allocation and Scheduling with Different User Data Rate Requirements for OFDMA Systems Athens, Greece 2007 1 5
4. Scheduling for Improving System Capacity in Multiservice 3GPP LTE;Lima;Journal of Electrical and Computer Engineering,2010
5. Rodrigues EB Casadevall F Adaptive Radio Resource Allocation Framework for Multi-User OFDM Barcelona, Spain 2009 1 6
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