heuristic approaches for energy-efficient shared restoration in wdm networks
abstract
in recent years, there has been ongoing research on the design of energy-efficient wavelength division multiplexing (wdm) networks. the explosive growth of internet traffic has led to increased power consumption of network components. network survivability has also been a relevant research topic, as it plays a crucial role in assuring continuity of service with no disruption, regardless of network component failure. network survivability mechanisms tend to utilize considerable resources such as spare capacity in order to protect and restore information.
this thesis investigates techniques for reducing energy demand and enhancing energy efficiency in the context of network survivability. we propose two novel heuristic energy-efficient shared protection approaches for wdm networks. these approaches intend to save energy by setting on sleep mode devices that are not being used while providing shared backup paths to satisfy network survivability. the first approach exploits properties of a math series in order to assign weight to the network links. it aims at reducing power consumption at the network indirectly by aggregating traffic on a set of nodes and links with high traffic load level. routing traffic on links and nodes that are already under utilization makes it possible for the links and nodes with no load to be set on sleep mode. the second approach is intended to dynamically route traffic through nodes and links with high traffic load level. similar to the first approach, this approach computes a pair of paths for every newly arrived demand. it computes these paths for every new demand by comparing the power consumption of nodes and links in the network before the demand arrives with their potential power consumption if they are chosen along the paths of this demand.
simulations of two different networks were used to compare the total network power consumption obtained using the proposed techniques against a standard shared-path restoration scheme. shared-path restoration is a network survivability method in which a link-disjoint backup path and wavelength is reserved at the time of call setup for a working path. however, in order to reduce spare capacity consumption, this reserved backup path and wavelength may be shared with other backup paths. pool sharing scheme (pss) is employed to implement shared-path restoration scheme [1]. in an optical network, the failure of a single link leads to the failure of all the lightpaths that pass through that particular link. pss ensures that the amount of backup bandwidth required on a link to restore the failed connections will not be more than the total amount of reserved backup bandwidth on that link.
simulation results indicate that the proposed approaches lead to up to 35% power savings in wdm networks when traffic load is low. however, power saving decreases to 14% at high traffic load level. furthermore, in terms of the total capacity consumption for working paths, pss outperforms the two proposed approaches, as expected. in terms of total capacity consumption all the approaches behave similarly. in general, at low traffic load level, the two proposed approaches behave similar to pss in terms of average link load, and the ratio of block demands. nevertheless, at high traffic load, the proposed approaches result in higher ratio of blocked demands than pss. they also lead to higher average link load than pss for the equal number of generated demands.