Energy-efficient resilient optical networks: Challenges and trade-offs

Energy efficiency and resilience are two well established research topics in optical transport networks. However, their overall objectives (i.e., power minimization and resource utilization/ availability maximization) conflict. In fact, provisioning schemes optimized for best resilience performance are in most cases not energy-efficient in their operations, and vice versa. However, very few works in the literature consider the interesting issues that may arise when energy efficiency and resilience are combined in the same networking solution. The objective of this article is to identify a number of research challenges and trade-offs for the design of energy-efficient and resilient optical transport networks from the perspective of long-term traffic forecasts, short-term traffic dynamics, and service level agreement requirements. We support the challenges with justifying numbers based on lessons learned from our previous work. The article also discusses suitable metrics for energy efficiency and resilience evaluation, in addition to a number of steps that need to be taken at the standardization level to incorporate energy efficiency into already existing and well established protocols.

[1]  Piero Castoldi,et al.  Reliability differentiation in energy efficient optical networks with shared path protection , 2013, 2013 IEEE Online Conference on Green Communications (OnlineGreenComm).

[2]  Satoru Okamoto Requirements of GMPLS Extensions for Energy Efficient Traffic Engineering , 2013 .

[3]  Francesco Musumeci,et al.  Energy-efficiency of protected IP-over-WDM networks with sleep-mode devices , 2013, J. High Speed Networks.

[4]  Didier Colle,et al.  Power consumption evaluation of circuit-switched versus packet-switched optical backbone networks , 2013, 2013 IEEE Online Conference on Green Communications (OnlineGreenComm).

[5]  D. Colle,et al.  Worldwide electricity consumption of communication networks. , 2012, Optics express.

[6]  Francesco Musumeci,et al.  Protection in optical transport networks with fixed and flexible grid: Cost and energy efficiency evaluation , 2014, Opt. Switch. Netw..

[7]  Marc Ruiz,et al.  Design of green optical networks with signal quality guarantee , 2012, 2012 IEEE International Conference on Communications (ICC).

[8]  Xiaowen Dong,et al.  On the Energy Efficiency of Physical Topology Design for IP Over WDM Networks , 2012, Journal of Lightwave Technology.

[9]  Didier Colle,et al.  A power consumption sensitivity analysis of circuit-switched versus packet-switched backbone networks , 2015, Comput. Networks.

[10]  Rodney S. Tucker Towards an Energy-Efficient Internet , 2014 .

[11]  Jorge Téllez López,et al.  Energy and Cost-Efficient Protection in Core Networks by a Differentiated Quality of Protection Scheme , 2013 .

[12]  Alvaro Retana,et al.  A Framework and Requirements for Energy Aware Control Planes , 2014 .

[13]  Esther Le Rouzic Network evolution and the impact in core networks , 2010, 36th European Conference and Exhibition on Optical Communication.

[14]  Jaafar M. H. Elmirghani,et al.  Energy-efficient core networks , 2012, 2012 16th International Conference on Optical Network Design and Modelling (ONDM).

[15]  A Coiro,et al.  Reducing Power Consumption in Wavelength Routed Networks by Selective Switch Off of Optical Links , 2011, IEEE Journal of Selected Topics in Quantum Electronics.

[16]  Anna Tzanakaki,et al.  Dynamic provisioning strategies for energy efficient WDM networks with dedicated path protection , 2011, Opt. Switch. Netw..