GSNR-aware resource re-provisioning for C to C+L-bands upgrade in optical backbone networks

IF 1.8 4区 计算机科学 Q3 COMPUTER SCIENCE, INFORMATION SYSTEMS Photonic Network Communications Pub Date : 2024-07-13 DOI:10.1007/s11107-024-01023-6
Ramanuja Kalkunte, Rana Kumar Jana, Sifat Ferdousi, Anand Srivastava, Abhijit Mitra, Massimo Tornatore, Andrew Lord, Biswanath Mukherjee
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Abstract

Efficient network management in optical backbone networks is essential to manage continuous traffic growth. To accommodate this growth, network operators need to upgrade their infrastructure at appropriate times. Given the cost constraint of upgrading the entire network at once, upgrading the network periodically in multiple batches is a more pragmatic approach to meet the growing demands. While multi-period, batch-upgrade strategies to increase network capacity from the conventional C band to C+L bands have been proposed, they did not consider so far the possibility to re-provision existing traffic. In this work, we investigate how to selectively re-provision connections from C band to L band during a batch upgrade. This is to ensure greater availability of C-band resources which can help to delay network upgrade and hence reduce upgrade cost, while limiting the number of disrupted connections in the network. This study proposes two re-provisioning strategies, namely, Budget-Based (BB) and Margin-Aware (MA) re-provisioning, which rely on the Quality of Transmission (QoT) of lightpaths. These strategies leverage the knowledge of Generalized Signal-to-Noise Ratio (GSNR) to choose which lightpaths to re-provision. We compare these strategies with a baseline distance-based strategy that uses path length to select and re-provision lightpaths. We also incorporate Machine Learning techniques for QoT estimation of lightpaths to reduce the computational time required for optical-path feasibility check. Numerical results show that, compared to distance-based strategy, BB and MA strategies reduce disruption by about 22% and 27%, respectively, in representative network topologies.

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光骨干网中 C 波段向 C+L 波段升级时的 GSNR 感知资源重新配置
光骨干网络的高效网络管理对于管理持续增长的流量至关重要。为适应这种增长,网络运营商需要适时升级其基础设施。考虑到一次性升级整个网络的成本限制,定期分批升级网络是满足不断增长的需求的一种更为务实的方法。虽然有人提出了多周期、分批升级的策略,以提高从传统 C 波段到 C+L 波段的网络容量,但迄今为止,这些策略并未考虑重新分配现有流量的可能性。在这项工作中,我们研究了如何在批量升级过程中选择性地将连接从 C 波段重新分配到 L 波段。这样做的目的是确保 C 波段资源的更大可用性,有助于延迟网络升级,从而降低升级成本,同时限制网络中中断连接的数量。本研究提出了两种重新供应策略,即基于预算(BB)和保证金意识(MA)的重新供应,这两种策略都依赖于光路的传输质量(QoT)。这些策略利用广义信噪比(GSNR)知识来选择哪些光路需要重新供应。我们将这些策略与使用路径长度来选择和重新提供光路的基于距离的基准策略进行了比较。我们还采用机器学习技术对光路的 QoT 进行估计,以减少光路可行性检查所需的计算时间。数值结果表明,与基于距离的策略相比,BB 和 MA 策略在具有代表性的网络拓扑结构中分别减少了约 22% 和 27% 的中断。
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来源期刊
Photonic Network Communications
Photonic Network Communications 工程技术-电信学
CiteScore
4.10
自引率
5.90%
发文量
33
审稿时长
12 months
期刊介绍: This journal publishes papers involving optical communication networks. Coverage includes network and system technologies; network and system architectures; network access and control; network design, planning, and operation; interworking; and application design for an optical infrastructure This journal publishes high-quality, peer-reviewed papers presenting research results, major achievements, and trends involving all aspects of optical network communications. Among the topics explored are transport, access, and customer premises networks; local, regional, and global networks; transoceanic and undersea networks; optical transparent networks; WDM, HWDM, and OTDM networks and more.
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