Dynamic Bandwidth allocation algorithm for avoiding Frame rearrangement in NG-EPON

IF 1.9 4区计算机科学 Q3 COMPUTER SCIENCE, INFORMATION SYSTEMS

Optical Switching and Networking Pub Date : 2022-02-01 DOI:10.1016/j.osn.2021.100645

Ammar Rafiq , Muhammad Faisal Hayat , Muhammad Usman Younus

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引用次数: 2

Abstract

Next Generation Ethernet Passive Optical Network (NG-EPON) is considered to be future prospective access technology that could help to achieve 100Gbps data rates. Wavelength bonding is a phenomenon that can help Optical Network Units (ONU) to enhance their transmission capabilities. Using wavelength bonding, an ONU could transmit on multiple wavelength channels in parallel. The ONUs can achieve data transmission rates ranging from 25Gbps to 100Gbps. In upstream direction, ONUs share different available channels in time-sharing manner to effectively utilize the resources in NG-EPON. Dynamic Wavelength & Bandwidth Allocation (DWBA) algorithm is required for efficient allocation of wavelength and bandwidth resources in upstream direction. DWBA plays a vital role to help ONUs for transmission on multiple channels simultaneously. When an ONU transmits on multiple channels, a frame-rearrangement problem would occur at the Optical Line Terminal (OLT). OLT suffers from an extra overhead of frame-rearrangement; as the received frames at OLT are not in proper sequence. DWBA can play a vital role in avoiding frame rearrangement overhead. We proposed a DWBA algorithm to avoid/minimize frame rearrangement problem and efficient bandwidth allocation in NG-EPON. Our proposed DWBA avoids and minimizes frame-rearrangement problem and provides efficient resource allocation. We comparatively analyzed and evaluated our proposed DWBA with the existing DWBA algorithm. The simulation results show that our proposed DWBA minimizes frame-rearrangement problem as compared to existing DWBA algorithms and proves to be more efficient based on average (end-to-end) delay and completion time.

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NG-EPON中避免帧重排的动态带宽分配算法

下一代以太网无源光网络(NG-EPON)被认为是未来有望实现100Gbps数据速率的接入技术。波长绑定是一种可以帮助光网络单元增强传输能力的现象。利用波长键合，ONU可以在多个波长通道上并行传输。onu可以实现25Gbps ~ 100Gbps的数据传输速率。在上游方向，onu以分时的方式共享不同的可用信道，从而有效地利用NG-EPON中的资源。动态波长&为了实现上游波长和带宽资源的有效分配，需要采用DWBA (Bandwidth Allocation)算法。DWBA在帮助onu实现多信道同时传输方面起着至关重要的作用。当ONU在多个信道上传输时，会在光线路终端(OLT)上出现帧重排问题。OLT承受着帧重排的额外开销;因为在OLT接收到的帧没有按正确的顺序排列。DWBA在避免帧重排开销方面起着至关重要的作用。为了避免/最小化ngepon中的帧重排问题，实现高效的带宽分配，提出了一种DWBA算法。我们提出的DWBA避免和最小化了帧重排问题，提供了有效的资源分配。并与现有的DWBA算法进行了比较分析和评价。仿真结果表明，与现有的DWBA算法相比，我们提出的DWBA算法最大限度地减少了帧重排问题，并且基于平均(端到端)延迟和完成时间证明了更高的效率。

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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来源期刊

Optical Switching and Networking COMPUTER SCIENCE, INFORMATION SYSTEMS-OPTICS

CiteScore

5.20

自引率

18.20%

发文量

审稿时长

77 days

期刊介绍： Optical Switching and Networking (OSN) is an archival journal aiming to provide complete coverage of all topics of interest to those involved in the optical and high-speed opto-electronic networking areas. The editorial board is committed to providing detailed, constructive feedback to submitted papers, as well as a fast turn-around time. Optical Switching and Networking considers high-quality, original, and unpublished contributions addressing all aspects of optical and opto-electronic networks. Specific areas of interest include, but are not limited to: • Optical and Opto-Electronic Backbone, Metropolitan and Local Area Networks • Optical Data Center Networks • Elastic optical networks • Green Optical Networks • Software Defined Optical Networks • Novel Multi-layer Architectures and Protocols (Ethernet, Internet, Physical Layer) • Optical Networks for Interet of Things (IOT) • Home Networks, In-Vehicle Networks, and Other Short-Reach Networks • Optical Access Networks • Optical Data Center Interconnection Systems • Optical OFDM and coherent optical network systems • Free Space Optics (FSO) networks • Hybrid Fiber - Wireless Networks • Optical Satellite Networks • Visible Light Communication Networks • Optical Storage Networks • Optical Network Security • Optical Network Resiliance and Reliability • Control Plane Issues and Signaling Protocols • Optical Quality of Service (OQoS) and Impairment Monitoring • Optical Layer Anycast, Broadcast and Multicast • Optical Network Applications, Testbeds and Experimental Networks • Optical Network for Science and High Performance Computing Networks