Power-Aware Routing in Optical Transport Networks With Physical Layer Impairment Constraints

Y. B. Bekele, Y. Negash
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Abstract

Due to the growth in data traffic volume and diversification of applications that use telecom network infrastructure, more power consuming telecommunication network equipments have been deployed. This scenario has led to an increase in the power consumption of the sector. In order to overcome this problem, stakeholders are striving to come up with ways to minimize this power consumption. In this work, a sleep mode operational strategy which takes the Physical Layer Impairment (PLI) and power loss/attenuation is proposed and an Integer Linear Programming (ILP) formulation is given. An implementation of the approach is carried out using GLPK optimizer and TOTEM toolbox simulation environments and results analyzed taking two Ethio Telecom backbone Optical Transport Network (OTN) segments. These optimizations & simulations help to analyze the impacts on Quality of Service (QoS) of applying this approach in addition to its main goal of power consumption minimization. Results show that a power saving of upto 51% for Addis Ababa backbone OTN and 44% for North-East backbone OTN can be achieved at maximum link utilization thresholds of 70% and 50% respectively. Link utilization constraint is used to ensure network QoS is maintained.
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具有物理层损伤约束的光传输网络中的功率感知路由
由于数据流量的增长和使用电信网络基础设施的应用的多样化,部署了更多的功耗电信网络设备。这种情况导致了该部门电力消耗的增加。为了克服这个问题,相关人员正在努力寻找最小化功耗的方法。在这项工作中,提出了一种考虑物理层损伤(PLI)和功率损耗/衰减的睡眠模式操作策略,并给出了整数线性规划(ILP)公式。利用GLPK优化器和TOTEM工具箱仿真环境对该方法进行了实现,并以埃塞电信两个骨干光传输网络(OTN)段为例对结果进行了分析。这些优化和模拟有助于分析应用此方法对服务质量(QoS)的影响,以及其功耗最小化的主要目标。结果表明,当最大链路利用率阈值分别为70%和50%时,亚的斯亚贝巴主干网和东北主干网分别可实现51%和44%的节电。链路利用率约束用于保证网络的QoS。
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