Title :
Trap avoidance and protection schemes in networks with shared risk link groups
Author :
Xu, Dahai ; Xiong, Yizhi ; Qiao, Chunming ; Li, Guangzhi
Author_Institution :
Dept. of Comput. Sci. & Eng., State Univ. of New York, USA
Abstract :
Shared risk link group (SRLG) has been widely recognized as an important concept in survivable optical networks. However, there are still several SRLG-related problems of both theoretical interest and practical importance that have not been explored fully. Specifically, there are two major issues that are still open: avoiding failures in path determination caused by "traps" and maximizing bandwidth sharing. These issues are more challenging when considering shared path protection in networks with SRLGs. In this paper, we address the above two open issues, starting with a heuristic approach to avoiding traps. In networks with SRLGs, a simple heuristic may run into traps up to 30% of the time. Integer linear programming (ILP)-based approaches, on the other hand, are not feasible for large SRLG networks. One of the widely used heuristics for trap avoidance is based on K shortest paths (KSP). As an alternative to KSP, we propose an innovative trap avoidance (TA) heuristic that requires much less running time than KSP (and ILP) and yet can effectively avoid almost all the avoidable traps as an ILP-based approach. We also propose an efficient shared SRLG protection scheme based on TA that can achieve a bandwidth efficiency that is nearly as high as other schemes based on ILP or KSP.
Keywords :
bandwidth allocation; heuristic programming; multiprotocol label switching; optical fibre networks; signal flow graphs; telecommunication congestion control; telecommunication network reliability; telecommunication network routing; wavelength division multiplexing; DWDM; K shortest paths; bandwidth sharing; dynamic provisioning; dynamic routing; generalized multiprotocol label switching; heuristic approach; layered architecture; mesh networks; optical network protection; shared risk link groups; spare capacity allocation; static routing; survivable optical networks; trap avoidance; trellis graph; weighted directed graph; Associate members; Bandwidth; Charge carrier processes; Information management; Instruction sets; Integer linear programming; Intelligent networks; Optical fiber networks; Protection; Wavelength division multiplexing;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2003.819545