IMPROVEMENTS FOR UPLINK LONG TERM EVOLUTION (UL-LTE) IN HETEROGENEOUS NETWORK USING DYNAMIC SPECTRUM ALLOCATION TECHNIQUE

Several interference mitigation strategies can be used in LTE networks to meet the consumers' increasing need for faster data speeds. Dynamic Spectrum Allocation (DSA), which maintains spectrum in a converged radio system and distributes it across all participating radio terminals, is one of th...

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Main Authors: Othman N.I., Ismail A.F., Badron K., Hashim W., Pinardi S.
Other Authors: 56539462100
Format: Article
Published: Academy and Industry Research Collaboration Center (AIRCC) 2023
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spelling my.uniten.dspace-266832023-05-29T17:36:10Z IMPROVEMENTS FOR UPLINK LONG TERM EVOLUTION (UL-LTE) IN HETEROGENEOUS NETWORK USING DYNAMIC SPECTRUM ALLOCATION TECHNIQUE Othman N.I. Ismail A.F. Badron K. Hashim W. Pinardi S. 56539462100 36602773900 35387519800 11440260100 58002803100 Several interference mitigation strategies can be used in LTE networks to meet the consumers' increasing need for faster data speeds. Dynamic Spectrum Allocation (DSA), which maintains spectrum in a converged radio system and distributes it across all participating radio terminals, is one of the most promising solutions. However, the fundamental obstacle to achieving increased network capacities is increased inter-cell interference. The aim of this paper is to analyse the effectiveness of a newly proposed DSA technique by comparing its bit error rate (BER) and throughput (TP) with a typical uplink LTE configuration. To maximise throughput in a heterogeneous network, the suggested DSA technique utilises the Nash Bargaining Solution (NBS) scheme, a cooperative game theory that could correlate with the bit error rate. The software tool GNU Radio, which offers signal-processing blocks to develop software-defined radios and signal-processing systems, was used to create the setups. After the simulations were performed, the BER values were recorded and compared, while the TP values were established and computed appropriately. According to the results, the uplink (UL-LTE) architecture with DSA has an improved TP and a lower BER value. As a result, spectral efficiency can also be improved � 2022,International Journal of Computer Networks and Communications. All Rights Reserved. Final 2023-05-29T09:36:09Z 2023-05-29T09:36:09Z 2022 Article 10.5121/ijcnc.2022.14602 2-s2.0-85143858151 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85143858151&doi=10.5121%2fijcnc.2022.14602&partnerID=40&md5=929c2a8d980e46b6d70efd1967b367a5 https://irepository.uniten.edu.my/handle/123456789/26683 14 6 21 35 All Open Access, Bronze Academy and Industry Research Collaboration Center (AIRCC) Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
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country Malaysia
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description Several interference mitigation strategies can be used in LTE networks to meet the consumers' increasing need for faster data speeds. Dynamic Spectrum Allocation (DSA), which maintains spectrum in a converged radio system and distributes it across all participating radio terminals, is one of the most promising solutions. However, the fundamental obstacle to achieving increased network capacities is increased inter-cell interference. The aim of this paper is to analyse the effectiveness of a newly proposed DSA technique by comparing its bit error rate (BER) and throughput (TP) with a typical uplink LTE configuration. To maximise throughput in a heterogeneous network, the suggested DSA technique utilises the Nash Bargaining Solution (NBS) scheme, a cooperative game theory that could correlate with the bit error rate. The software tool GNU Radio, which offers signal-processing blocks to develop software-defined radios and signal-processing systems, was used to create the setups. After the simulations were performed, the BER values were recorded and compared, while the TP values were established and computed appropriately. According to the results, the uplink (UL-LTE) architecture with DSA has an improved TP and a lower BER value. As a result, spectral efficiency can also be improved � 2022,International Journal of Computer Networks and Communications. All Rights Reserved.
author2 56539462100
author_facet 56539462100
Othman N.I.
Ismail A.F.
Badron K.
Hashim W.
Pinardi S.
format Article
author Othman N.I.
Ismail A.F.
Badron K.
Hashim W.
Pinardi S.
spellingShingle Othman N.I.
Ismail A.F.
Badron K.
Hashim W.
Pinardi S.
IMPROVEMENTS FOR UPLINK LONG TERM EVOLUTION (UL-LTE) IN HETEROGENEOUS NETWORK USING DYNAMIC SPECTRUM ALLOCATION TECHNIQUE
author_sort Othman N.I.
title IMPROVEMENTS FOR UPLINK LONG TERM EVOLUTION (UL-LTE) IN HETEROGENEOUS NETWORK USING DYNAMIC SPECTRUM ALLOCATION TECHNIQUE
title_short IMPROVEMENTS FOR UPLINK LONG TERM EVOLUTION (UL-LTE) IN HETEROGENEOUS NETWORK USING DYNAMIC SPECTRUM ALLOCATION TECHNIQUE
title_full IMPROVEMENTS FOR UPLINK LONG TERM EVOLUTION (UL-LTE) IN HETEROGENEOUS NETWORK USING DYNAMIC SPECTRUM ALLOCATION TECHNIQUE
title_fullStr IMPROVEMENTS FOR UPLINK LONG TERM EVOLUTION (UL-LTE) IN HETEROGENEOUS NETWORK USING DYNAMIC SPECTRUM ALLOCATION TECHNIQUE
title_full_unstemmed IMPROVEMENTS FOR UPLINK LONG TERM EVOLUTION (UL-LTE) IN HETEROGENEOUS NETWORK USING DYNAMIC SPECTRUM ALLOCATION TECHNIQUE
title_sort improvements for uplink long term evolution (ul-lte) in heterogeneous network using dynamic spectrum allocation technique
publisher Academy and Industry Research Collaboration Center (AIRCC)
publishDate 2023
_version_ 1806426569075326976
score 13.214268