Neurofuzzy and Biogeography-Based Optimization of Bandwidth Granularity for PON Based on Optical Path Fragmentation

Ashok Kumar ORCID; V. K. Banga and Amit Wason

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Neurofuzzy and Biogeography-Based Optimization of Bandwidth Granularity for PON Based on Optical Path Fragmentation

机译：基于神经新野和生物地理学的基于光路碎片的PON带宽粒度优化

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Abstract Passive optical network (PON) supported orthogonal frequency division multiplexing is a network that is designed for subsequent generation of optical networks. During this work, the proposed algorithm consists of neurofuzzy rules which update and control the minimum bandwidth allocation granularity gleft( g ight). In order to improve the quality of service, a biogeography-based optimization algorithm is introduced and a new fitness function is proposed which reduces the round trip time by enhancing the distribution scaling factor. Hence, the proposed work reduces the jitter and increases the throughput of the PON for fixed g=1g = 1 which enhances the network performance by 3.4 % and 1.23 %, respectively.

机译：摘要无源光网络（PON）支持的正交频分复用是一种用于后续生成光网络的网络。在此工作期间，所提出的算法包括神经舒缩规则，该规则更新和控制最小带宽分配粒度G left（g 右）。为了提高服务质量，引入了一种基于生物地理的优化算法，提出了一种新的健身功能，通过增强分布缩放因子来减少往返时间。因此，所提出的工作减少了抖动并增加了固定G = 1G = 1的PON的吞吐量，这分别提高了网络性能3.4％和1.23％。

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来源
《Journal of Optical Communications》 |2021年第2期|365-373|共9页
作者
Ashok Kumar ORCID; V. K. Banga and Amit Wason;
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作者单位

PhD Scholar IKGPTU;

Professor &

Principal ACET;

Professor &

Principal ACE;

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收录信息美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
passive optical network (PON); biogeography-based optimization (BBO); nonlinear dynamic allocation (NDA);

机译：被动光网络（PON）;基于生物地理的优化（BBO）;非线性动态分配（NDA）;

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专利

1. Minimizing Blocking Probability in Elastic Optical Networks by Varying the Bandwidth Granularity Based on Optical Path Fragmentation [J] . Luae Al-Tarawneh, Sareh Taebi Photonics . 2017,第2期

机译：通过基于光路分段的带宽粒度来改变弹性光网络中的阻塞概率
2. Minimizing Blocking Probability in Elastic Optical Networks by Varying the Bandwidth Granularity Based on Optical Path Fragmentation [J] . Luae Al-Tarawneh, Sareh Taebi Photonics . 2017,第2期

机译：通过基于光路分段的带宽粒度来改变弹性光网络中的阻塞概率
3. Minimizing Blocking Probability in Elastic Optical Networks by Varyingthe Bandwidth Granularity Based on Optical Path Fragmentation [J] . Al-Tarawneh L, Taebi S Journal of Lasers, Optics & Photonics . 2017,第1期

机译：通过基于光路分段的带宽粒度来最小化弹性光网络中的阻塞概率
4. Path Planning Based on Voronoi Diagram and Biogeography-Based Optimization [C] . Ning Huang, Gang Liu, Bing He ICSI 2012;International conference on swarm intelligence . 2012

机译：基于Voronoi图和基于生物地理学的优化的路径规划
5. Oppositional biogeography-based optimization. [D] . Ergezer, Mehmet. 2014

机译：基于对立生物地理的优化。
6. A Selective Biogeography-Based Optimizer Considering Resource Allocation for Large-Scale Global Optimization [O] . Meiji Cui, Li Li, Miaojing Shi 2019

机译：基于选择性生物地理的优化器考虑资源分配以进行大规模全局优化
7. Minimizing Blocking Probability in Elastic Optical Networks by Varying the Bandwidth Granularity Based on Optical Path Fragmentation [O] . Luae Al-Tarawneh, Sareh Taebi 2017

机译：通过基于光路碎片改变带宽粒度来最小化弹性光网络中的阻塞概率

Neurofuzzy and Biogeography-Based Optimization of Bandwidth Granularity for PON Based on Optical Path Fragmentation

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