TY - GEN
T1 - Optimization for time-driven link sleeping reconfigurations in ISP backbone networks
AU - Francois, Frederic
AU - Wang, Ning
AU - Moessner, Klaus
AU - Georgoulas, Stylianos
PY - 2012
Y1 - 2012
N2 - Backbone network energy efficiency has recently become a primary concern for Internet Service Providers and regulators. The common solutions for energy conservation in such an environment include sleep mode reconfigurations and rate adaptation at network devices when the traffic volume is low. It has been observed that many ISP networks exhibit regular traffic dynamicity patterns which can be exploited for practical time-driven link sleeping configurations. In this work, we propose a joint optimization algorithm to compute the reduced network topology and its actual configuration duration during daily operations. The main idea is first to intelligently remove network links using a greedy heuristic, without causing network congestion during off-peak time. Following that, a robust algorithm is applied to determine the window size of the configuration duration of the reduced topology, making sure that a unified configuration with optimized energy efficiency performance can be enforced exactly at the same time period on a daily basis. Our algorithm was evaluated using on a Point-of-Presence representation of the GÉANT network and its real traffic matrices. According to our simulation results, the reduced network topology obtained is able to achieve 18.6% energy reduction during that period without causing significant network performance deterioration. The contribution from this work is a practical but efficient approach for energy savings in ISP networks, which can be directly deployed on legacy routing platforms without requiring any protocol extension.
AB - Backbone network energy efficiency has recently become a primary concern for Internet Service Providers and regulators. The common solutions for energy conservation in such an environment include sleep mode reconfigurations and rate adaptation at network devices when the traffic volume is low. It has been observed that many ISP networks exhibit regular traffic dynamicity patterns which can be exploited for practical time-driven link sleeping configurations. In this work, we propose a joint optimization algorithm to compute the reduced network topology and its actual configuration duration during daily operations. The main idea is first to intelligently remove network links using a greedy heuristic, without causing network congestion during off-peak time. Following that, a robust algorithm is applied to determine the window size of the configuration duration of the reduced topology, making sure that a unified configuration with optimized energy efficiency performance can be enforced exactly at the same time period on a daily basis. Our algorithm was evaluated using on a Point-of-Presence representation of the GÉANT network and its real traffic matrices. According to our simulation results, the reduced network topology obtained is able to achieve 18.6% energy reduction during that period without causing significant network performance deterioration. The contribution from this work is a practical but efficient approach for energy savings in ISP networks, which can be directly deployed on legacy routing platforms without requiring any protocol extension.
KW - energy efficiency
KW - green network
KW - link sleeping
KW - network reconfiguration
KW - traffic engineering
UR - http://www.scopus.com/inward/record.url?scp=84864207699&partnerID=8YFLogxK
U2 - 10.1109/NOMS.2012.6211902
DO - 10.1109/NOMS.2012.6211902
M3 - Conference Contribution (Conference Proceeding)
AN - SCOPUS:84864207699
SN - 9781467302685
T3 - Proceedings of the 2012 IEEE Network Operations and Management Symposium, NOMS 2012
SP - 221
EP - 228
BT - Proceedings of the 2012 IEEE Network Operations and Management Symposium, NOMS 2012
T2 - 2012 IEEE Network Operations and Management Symposium, NOMS 2012
Y2 - 16 April 2012 through 20 April 2012
ER -
