An event-driven simulation for highest urgency first (HUF) : a latency and modulation aware bandwidth allocation algorithm for WiMAX base stations.
Awide-spectrum of WiMAX simulators have been developed to provide analysis for advanced WiMAX system development, including the open source tool ns-2, and commercial software such as QualNet and OPNET Modeler. These tools are among the pertinent simulators,however,there are trade-offs such as comple...
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Springer Verlag
2013
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Online Access: | http://psasir.upm.edu.my/id/eprint/30668/1/An%20event-driven%20simulation%20for%20highest%20urgency%20first%20.pdf http://psasir.upm.edu.my/id/eprint/30668/ |
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my.upm.eprints.306682015-12-08T03:32:38Z http://psasir.upm.edu.my/id/eprint/30668/ An event-driven simulation for highest urgency first (HUF) : a latency and modulation aware bandwidth allocation algorithm for WiMAX base stations. Naghshbandi, Danial Subramaniam, Shamala Moghadam, Saeed Rahimi Awide-spectrum of WiMAX simulators have been developed to provide analysis for advanced WiMAX system development, including the open source tool ns-2, and commercial software such as QualNet and OPNET Modeler. These tools are among the pertinent simulators,however,there are trade-offs such as complexity,large integrated components and licensing cost for commercial simulators. To strike an ideal balance in gauging these trade-offs and to further complement the repository of simulators, this paper presents the details of a general-purpose programming language based discrete event simulation for WiMAX. This research has focused at developing a discrete-event simulator to implement bandwidth allocation algorithms for a WiMAX base station.The highest urgency first algorithm has been utilized as a benchmark deployment algorithm in order to provide: dynamic downlink/uplink adjustment and latency guarantee for real-time applications. Two performance analyses have been deployed for the purpose of extensive testing of the developed simulator. The analysis encompasses the modulation and coding scheme awareness and the latency guarantee with multiple and distinct requirements. The results show that the developed simulator has successfully produced the benchmark results. These findings have proved that the new simulator has successfully become a reliable option for WiMAX resource management performance analysis. Springer Verlag 2013 Article PeerReviewed application/pdf en http://psasir.upm.edu.my/id/eprint/30668/1/An%20event-driven%20simulation%20for%20highest%20urgency%20first%20.pdf Naghshbandi, Danial and Subramaniam, Shamala and Moghadam, Saeed Rahimi (2013) An event-driven simulation for highest urgency first (HUF) : a latency and modulation aware bandwidth allocation algorithm for WiMAX base stations. Wireless Personal Communications, 69 (1). pp. 39-52. ISSN 0929-6212; ESSN: 1572-834X 10.1007/s11277-012-0559-9 English |
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Awide-spectrum of WiMAX simulators have been developed to provide analysis for advanced WiMAX system development, including the open source tool ns-2, and commercial software such as QualNet and OPNET Modeler. These tools are among the pertinent simulators,however,there are trade-offs such as complexity,large integrated components and
licensing cost for commercial simulators. To strike an ideal balance in gauging these trade-offs and to further complement the repository of simulators, this paper presents the details of a general-purpose programming language based discrete event simulation for WiMAX.
This research has focused at developing a discrete-event simulator to implement bandwidth allocation algorithms for a WiMAX base station.The highest urgency first algorithm has been utilized as a benchmark deployment algorithm in order to provide: dynamic downlink/uplink adjustment and latency guarantee for real-time applications. Two performance analyses have been deployed for the purpose of extensive testing of the developed simulator. The analysis
encompasses the modulation and coding scheme awareness and the latency guarantee with multiple and distinct requirements. The results show that the developed simulator has successfully produced the benchmark results. These findings have proved that the new simulator has successfully become a reliable option for WiMAX resource management performance analysis. |
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Naghshbandi, Danial Subramaniam, Shamala Moghadam, Saeed Rahimi |
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Naghshbandi, Danial Subramaniam, Shamala Moghadam, Saeed Rahimi An event-driven simulation for highest urgency first (HUF) : a latency and modulation aware bandwidth allocation algorithm for WiMAX base stations. |
author_facet |
Naghshbandi, Danial Subramaniam, Shamala Moghadam, Saeed Rahimi |
author_sort |
Naghshbandi, Danial |
title |
An event-driven simulation for highest urgency first (HUF) : a latency and modulation aware bandwidth allocation algorithm for WiMAX base stations. |
title_short |
An event-driven simulation for highest urgency first (HUF) : a latency and modulation aware bandwidth allocation algorithm for WiMAX base stations. |
title_full |
An event-driven simulation for highest urgency first (HUF) : a latency and modulation aware bandwidth allocation algorithm for WiMAX base stations. |
title_fullStr |
An event-driven simulation for highest urgency first (HUF) : a latency and modulation aware bandwidth allocation algorithm for WiMAX base stations. |
title_full_unstemmed |
An event-driven simulation for highest urgency first (HUF) : a latency and modulation aware bandwidth allocation algorithm for WiMAX base stations. |
title_sort |
event-driven simulation for highest urgency first (huf) : a latency and modulation aware bandwidth allocation algorithm for wimax base stations. |
publisher |
Springer Verlag |
publishDate |
2013 |
url |
http://psasir.upm.edu.my/id/eprint/30668/1/An%20event-driven%20simulation%20for%20highest%20urgency%20first%20.pdf http://psasir.upm.edu.my/id/eprint/30668/ |
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1643830128203005952 |
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