Performance Evaluation of Segment Routing and MPLS for End-to-End QoS

カテゴリ: 研究会(論文単位)

論文No: CMN22017

グループ名: 【C】電子・情報・システム部門 通信研究会

発行日: 2022/03/21

タイトル(英語): Performance Evaluation of Segment Routing and MPLS for End-to-End QoS

著者名: Albarazanchi Karrar(Universiti Putra Malaysia),Hashim Shaiful (Universiti Putra Malaysia),Khalid Haqi(Universiti Putra Malaysia)

著者名(英語): Karrar Albarazanchi (Universiti Putra Malaysia),Shaiful Hashim(Universiti Putra Malaysia),Haqi Khalid(Universiti Putra Malaysia)

キーワード: end-to-end|segment routing|MPLS|throughput|latency|jitter|end-to-end|segment routing|MPLS|throughput|latency|jitter

要約(日本語): 5G network slicing needs to be supported by communication network that depends on IP-based technology namely MPLS and Segment Routing with MPLS (SR-MPLS). However, MPLS has experienced scalability and performance-related issues due to the additional protocols such as LDP and RSVP. SR-MPLS is a new protocol that is able to simplify the network operations without any additional protocols. Consequently, SR-MPLS is capable of guaranteeing a simplified network operations with a better performance within the communication network. In this paper, we have evaluated MPLS and SR-MPLS from end-to-end perspective using four QoS parameters namely throughput, latency, jitter, and overhead using EVE-NG emulator deployed on Google Cloud Platform (GCP).

要約(英語): 5G network slicing needs to be supported by communication network that depends on IP-based technology namely MPLS and Segment Routing with MPLS (SR-MPLS). However, MPLS has experienced scalability and performance-related issues due to the additional protocols such as LDP and RSVP. SR-MPLS is a new protocol that is able to simplify the network operations without any additional protocols. Consequently, SR-MPLS is capable of guaranteeing a simplified network operations with a better performance within the communication network. In this paper, we have evaluated MPLS and SR-MPLS from end-to-end perspective using four QoS parameters namely throughput, latency, jitter, and overhead using EVE-NG emulator deployed on Google Cloud Platform (GCP).

本誌: 2022年3月24日-2022年3月25日通信研究会

本誌掲載ページ: 11-16 p

原稿種別: 英語

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