APPLYING SWITCHING AND MULTIPLE ACCESS MODEL FOR REDUCING PACKET LOSS AND NETWORK OVERHEADS IN WATM

As an effectual simplewireless equivalent created in thetelecommunications (telephone)industry, Wireless AsynchronousTransfer Mode (WATM) is utilizedto stream unified traffics likevideo, data, and voice data. In theasynchronous data transfer mode,voice data transfer a packet with thesame medium, and...

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Main Authors: Ali S.M., Mshali H., Elameer A.S., Jaber M.M., Abd S.K.
Other Authors: 57387049200
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Published: Technology Center 2023
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spelling my.uniten.dspace-264052023-05-29T17:10:04Z APPLYING SWITCHING AND MULTIPLE ACCESS MODEL FOR REDUCING PACKET LOSS AND NETWORK OVERHEADS IN WATM Ali S.M. Mshali H. Elameer A.S. Jaber M.M. Abd S.K. 57387049200 56543666800 57221869109 56519461300 56516784600 As an effectual simplewireless equivalent created in thetelecommunications (telephone)industry, Wireless AsynchronousTransfer Mode (WATM) is utilizedto stream unified traffics likevideo, data, and voice data. In theasynchronous data transfer mode,voice data transfer a packet with thesame medium, and data share thenetworks and burst data. EffectiveWATM data transmission requires anextensive array of designs, techniquesused for control, and simulationmethodologies. The congestion of thenetwork is among the key challengesthat lower the entire WATMperformance during this procedure,in addition to the delay in cell and theoverload of traffic. The congestionscause cell loss, and it requiresexpensive switches compared tothe LAN. Consequently, in this currentstudy, the application of an effectualswitching model together with acontrol mechanism that possessesmultiple accesses is employed. Themultiple access process and switchingmodel are utilized to establish aneffective data sharing process withminimum complexity. The switchingmodel uses the synchronous inputsand output ports with buffering toensure the data sharing process. Thetraffic in the network is decreased,and the loss of packets in the cellsis efficiently kept to a minimum bythe proposed technique. The systembeing discussed is employed throughthe utilization of software employedusing OPNET 10.5 imulation, withthe valuation of the WATM alongwith the investigational outcomesaccordingly. The system's efficiencyis assessed by throughput, latency,cell loss probability value (CLP),overhead network, and packet loss.Thus, the system ensures the minimumpacket loss (0.1 %) and high datatransmission rate (96.6 %) � 2021, Authors. This is an open access article under the reative Commons CC BY license Final 2023-05-29T09:10:04Z 2023-05-29T09:10:04Z 2021 Article 10.15587/1729-4061.2021.249474 2-s2.0-85123634058 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85123634058&doi=10.15587%2f1729-4061.2021.249474&partnerID=40&md5=fc4786827ce1f74f4ce24425d46608a9 https://irepository.uniten.edu.my/handle/123456789/26405 6 9(114) 15 23 All Open Access, Gold, Green Technology Center Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
description As an effectual simplewireless equivalent created in thetelecommunications (telephone)industry, Wireless AsynchronousTransfer Mode (WATM) is utilizedto stream unified traffics likevideo, data, and voice data. In theasynchronous data transfer mode,voice data transfer a packet with thesame medium, and data share thenetworks and burst data. EffectiveWATM data transmission requires anextensive array of designs, techniquesused for control, and simulationmethodologies. The congestion of thenetwork is among the key challengesthat lower the entire WATMperformance during this procedure,in addition to the delay in cell and theoverload of traffic. The congestionscause cell loss, and it requiresexpensive switches compared tothe LAN. Consequently, in this currentstudy, the application of an effectualswitching model together with acontrol mechanism that possessesmultiple accesses is employed. Themultiple access process and switchingmodel are utilized to establish aneffective data sharing process withminimum complexity. The switchingmodel uses the synchronous inputsand output ports with buffering toensure the data sharing process. Thetraffic in the network is decreased,and the loss of packets in the cellsis efficiently kept to a minimum bythe proposed technique. The systembeing discussed is employed throughthe utilization of software employedusing OPNET 10.5 imulation, withthe valuation of the WATM alongwith the investigational outcomesaccordingly. The system's efficiencyis assessed by throughput, latency,cell loss probability value (CLP),overhead network, and packet loss.Thus, the system ensures the minimumpacket loss (0.1 %) and high datatransmission rate (96.6 %) � 2021, Authors. This is an open access article under the reative Commons CC BY license
author2 57387049200
author_facet 57387049200
Ali S.M.
Mshali H.
Elameer A.S.
Jaber M.M.
Abd S.K.
format Article
author Ali S.M.
Mshali H.
Elameer A.S.
Jaber M.M.
Abd S.K.
spellingShingle Ali S.M.
Mshali H.
Elameer A.S.
Jaber M.M.
Abd S.K.
APPLYING SWITCHING AND MULTIPLE ACCESS MODEL FOR REDUCING PACKET LOSS AND NETWORK OVERHEADS IN WATM
author_sort Ali S.M.
title APPLYING SWITCHING AND MULTIPLE ACCESS MODEL FOR REDUCING PACKET LOSS AND NETWORK OVERHEADS IN WATM
title_short APPLYING SWITCHING AND MULTIPLE ACCESS MODEL FOR REDUCING PACKET LOSS AND NETWORK OVERHEADS IN WATM
title_full APPLYING SWITCHING AND MULTIPLE ACCESS MODEL FOR REDUCING PACKET LOSS AND NETWORK OVERHEADS IN WATM
title_fullStr APPLYING SWITCHING AND MULTIPLE ACCESS MODEL FOR REDUCING PACKET LOSS AND NETWORK OVERHEADS IN WATM
title_full_unstemmed APPLYING SWITCHING AND MULTIPLE ACCESS MODEL FOR REDUCING PACKET LOSS AND NETWORK OVERHEADS IN WATM
title_sort applying switching and multiple access model for reducing packet loss and network overheads in watm
publisher Technology Center
publishDate 2023
_version_ 1806424289032798208