Dynamic Bandwidth Allocation in GMPLS Optical Networks using Minimum Execution Time Technique

2020 Indo – Taiwan 2nd International Conference on Computing, Analytics and Networks (Indo-Taiwan ICAN) Pub Date : 2020-02-01 DOI:10.1109/Indo-TaiwanICAN48429.2020.9181358

Monika, Simranjit Singh, A. Wason

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Abstract

A new dynamic bandwidth allocation technique named as Minimum Execution Time (MET) is developed for reducing the blocking probability to improve quality of service of the Generalized Multi Protocol Label Switched (GMPLS) optical network. A statistical model of an optical network is developed for blocking probability of held calls and cleared calls. The bandwidth is allocated to users on the basis of predictable completion intervals at the servers in the proposed technique for bandwidth allocation, i.e. it calculates the minimum time required to execute the request so that bandwidth can be allocated to another user. Thus, the bandwidth can be allocated in an efficient manner in this process. The blocking probability variation is studied based on the traffic load and wavelengths available at the time of user request in the GMPLS network. The results revealed that the blocking probability drops off with increasing number of available wavelengths. The value of blocking probability remains below 1% by using the proposed bandwidth allocation technique.

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基于最小执行时间技术的GMPLS光网络动态带宽分配

为了降低阻塞概率，提高通用多协议标签交换(GMPLS)光网络的服务质量，提出了一种新的动态带宽分配技术——最小执行时间(MET)。建立了光网络保持呼叫和清除呼叫阻塞概率的统计模型。在带宽分配建议的技术中，带宽是根据服务器上可预测的完成间隔分配给用户的，即它计算执行请求所需的最小时间，以便将带宽分配给另一个用户。因此，在此过程中可以有效地分配带宽。研究了GMPLS网络中基于用户请求时的流量负荷和可用波长的阻塞概率变化。结果表明，阻挡概率随可用波长数的增加而下降。采用所提出的带宽分配技术，阻塞概率值保持在1%以下。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2020 Indo – Taiwan 2nd International Conference on Computing, Analytics and Networks (Indo-Taiwan ICAN)

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