Title :
On integrating failure localization with network survivable design
Author :
Wei He ; Pin-Han Ho ; Bin Wu ; Tapolcai, Janos
Author_Institution :
Cheriton Sch. of Comput. Sci., Univ. of Waterloo, Waterloo, ON, Canada
Abstract :
Conventional all-optical restoration strategies like p-cycle achieve very fast restoration with high spare capacity consumption. In contrast, failure dependent protection (FDP) can achieve near-optimal capacity efficiency at the cost of high signaling/control complexity (so as for long restoration time). In this paper, we investigate a previously reported all-optical restoration framework that aims to yield a restoration speed similar to p-cycle while achieving near optimal resource consumption as FDP. In particular, we propose a simple yet efficient heuristic for joint allocation of monitoring trails and protection lightpaths, which serves as the key to enable the all-optical restoration. The resultant all-optical restoration framework is further examined by extensive simulations regarding the network resource consumption, number of transmitters, monitoring requirement, and running time.
Keywords :
optical fibre networks; optical transmitters; telecommunication signalling; all-optical restoration framework; all-optical restoration strategies; capacity consumption; failure dependent protection; failure localization; monitoring requirement; near-optimal capacity efficiency; network survivable design; optimal resource consumption; protection lightpaths; restoration time; signaling-control complexity; transmitters; Joints; Monitoring; Nuclear magnetic resonance; Optical transmitters; Protocols; Resource management; Vectors; All-optical networks; monitoring trail (m-trail); protection and restoration;
Conference_Titel :
Communications (ICC), 2013 IEEE International Conference on
Conference_Location :
Budapest
DOI :
10.1109/ICC.2013.6655179
