Design and Performance Analysis of a Fairness-Based License-Assisted Access and Resource Scheduling Scheme

In face of the explosive surge of mobile data services, spectrum aggregation or carrier aggregation technology has been proposed to improve system throughput and spectrum efficiency (SE) by aggregating licensed and unlicensed spectrum bands. However, the system performances would be severely deterio...

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Veröffentlicht in:	IEEE journal on selected areas in communications 2016-11, Vol.34 (11), p.2968-2980
Hauptverfasser:	Zhang, Qixun, Wang, Qinlong, Feng, Zhiyong, Yang, Tuo
Format:	Artikel
Sprache:	eng
Schlagworte:	Agglomeration Algorithm design and analysis Carrier aggregation (CA) IEEE 802.11 Standard license-assisted access (LAA) Linear programming LTE-unlicensed (LTE-U) Markov processes Mobile communication Quality of service Resource scheduling Scheduling spectrum aggregation Throughput
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creator	Zhang, Qixun Wang, Qinlong Feng, Zhiyong Yang, Tuo
description	In face of the explosive surge of mobile data services, spectrum aggregation or carrier aggregation technology has been proposed to improve system throughput and spectrum efficiency (SE) by aggregating licensed and unlicensed spectrum bands. However, the system performances would be severely deteriorated by the channel access collision if the channel access and resource scheduling approaches are not coordinated among different networks in the same spectrum band. Therefore, in order to improve the system throughput and the SE, a fairness-based license-assisted access and resource scheduling scheme are designed for the coexisting systems, incorporating long term evolution-advanced and WiFi systems in the unlicensed band. The optimal sizes of the contention window in the proposed fairness-based channel access approach are obtained in terms of various density ratios between these two systems. Furthermore, a novel resource scheduling approach employing linear programming is proposed to maximize the utility function with the goal of improving the service experience of users and the SE with various spectrum qualities. The theoretical proofs and simulation results verify the enhanced performances of the proposed approaches in terms of key metrics, such as throughput, SE, delay, and packet loss ratio.
doi_str_mv	10.1109/JSAC.2016.2614950
format	Article
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However, the system performances would be severely deteriorated by the channel access collision if the channel access and resource scheduling approaches are not coordinated among different networks in the same spectrum band. Therefore, in order to improve the system throughput and the SE, a fairness-based license-assisted access and resource scheduling scheme are designed for the coexisting systems, incorporating long term evolution-advanced and WiFi systems in the unlicensed band. The optimal sizes of the contention window in the proposed fairness-based channel access approach are obtained in terms of various density ratios between these two systems. Furthermore, a novel resource scheduling approach employing linear programming is proposed to maximize the utility function with the goal of improving the service experience of users and the SE with various spectrum qualities. 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subjects	Agglomeration Algorithm design and analysis Carrier aggregation (CA) IEEE 802.11 Standard license-assisted access (LAA) Linear programming LTE-unlicensed (LTE-U) Markov processes Mobile communication Quality of service Resource scheduling Scheduling spectrum aggregation Throughput
title	Design and Performance Analysis of a Fairness-Based License-Assisted Access and Resource Scheduling Scheme
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