Comparative study of link bandwidth scheduling algorithms suitable for UV optical communication networks

Xiangyao Ma; Leitao Wang; Jinkui Huang; Wenzhuo Han; Jinglin Cao; Jingyuan Wang; Jianhua Li

doi:10.1117/12.3052002

15 January 2025 Comparative study of link bandwidth scheduling algorithms suitable for UV optical communication networks

Xiangyao Ma, Leitao Wang, Jinkui Huang, Wenzhuo Han, Jinglin Cao, Jingyuan Wang, Jianhua Li

Author Affiliations +

Proceedings Volume 13516, Fourth International Conference on Network Communication and Information Security (ICNCIS 2024); 1351602 (2025) https://doi.org/10.1117/12.3052002
Event: International Conference on Network Communication and Information Security (ICNCIS 2024), 2024, Hangzhou, China

Abstract

Ultraviolet optical communication and its networking applications are limited by its technical performance parameters. To address the resulting bandwidth constraints therein, this paper proposes a new credit-based scheduling algorithm and conducts a comparative study between the traditional scheduling algorithm and the credit-based scheduling algorithm for the scenarios of multi-service transmission, relatively large number of service packet transmission, etc., and discusses the characteristics and performance of the different algorithms, under the conditions of bandwidth constraints. The simulation experiment results show that compared with the traditional algorithm, the credit-based scheduling algorithm proposed in this paper is more suitable for the bandwidth-constrained scenarios of UV optical communication, and has more advantages in bandwidth allocation, dynamic adjustment, and reliable service.

(2025) Published by SPIE. Downloading of the abstract is permitted for personal use only.

Citation Download Citation

Xiangyao Ma, Leitao Wang, Jinkui Huang, Wenzhuo Han, Jinglin Cao, Jingyuan Wang, and Jianhua Li "Comparative study of link bandwidth scheduling algorithms suitable for UV optical communication networks", Proc. SPIE 13516, Fourth International Conference on Network Communication and Information Security (ICNCIS 2024), 1351602 (15 January 2025); https://doi.org/10.1117/12.3052002

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KEYWORDS

Optical communications

Ultraviolet radiation

Computer simulations

Optical networks

Design

Data transmission

Surface plasmons

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