Title :
Optical restoration at the wavelength-multiplex section level in WDM mesh networks
Author :
Karasan, Ezhan ; Goldstein, Evan
Author_Institution :
Newman Springs Lab., AT&T Labs., Red Bank, NJ, USA
Abstract :
In the presence of rapidly growing demand, long haul multiwavelength lightwave networks face the increasingly critical task of not only transporting large traffic volumes, but also of restoring them in the event of failures. This may be naturally done in two distinct ways: by rerouting individual wavelengths (wavelength-paths), or by rerouting full bundles of multiplexed wavelengths (wavelength-multiplex sections). We here evaluate the prospects for restoration at the wavelength multiplex-section level in national-scale long-haul wavelength division-multiplexed mesh networks. The approach is found to offer the potential of substantial economic benefits, given current transponder costs. These benefits will largely vanish, however, if transponder costs decline by an order of magnitude.
Keywords :
optical fibre networks; telecommunication network routing; wavelength division multiplexing; WDM mesh networks; long haul multiwavelength lightwave networks; optical restoration; transponder costs; wavelength-multiplex section level; Costs; Intelligent networks; Laboratories; Mesh networks; Optical fiber networks; Optical transmitters; Signal restoration; Transponders; WDM networks; Wavelength division multiplexing;
Journal_Title :
Photonics Technology Letters, IEEE
