Abstract
We are motivated by the developments in all-optical networks - a new tech- nology that supports high bandwidth demands. These networks provide a set of ligthpaths which can be seen as high-bandwidth pipes on which communication is performed. Since the capacity enabled by this technology substatially exceeds the one provided by conventional networks, its ability to recover from failures within the optical layer is important. In this paper we study the design of a survivable optical layer. We assume that an initial set of pathlights (designed according to the expected communication pattern) is given, and we are targerted at augmenting this initial set with additional lightpaths such that the result will guarantee survivability. For this purposes, we define and motivate a ring parti- tion survivability condition that the solution must satisfy. Generally speaking, this condition states that lightpaths must be arranged in rings. The cost of the switching cost of the entire network. We present some negative results regarding the tractability and approximability of this problem, and an approximation al- gorithm for it. We analyze the performance of the algorithm for the general case (arbitrary topology) as well as for some special cases.
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Eilam, T., Moran, S., Zaks, S. (2000). Approximation Algorithms for Survivable Optical Networks. In: Herlihy, M. (eds) Distributed Computing. DISC 2000. Lecture Notes in Computer Science, vol 1914. Springer, Berlin, Heidelberg. https://doi.org/10.1007/3-540-40026-5_7
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DOI: https://doi.org/10.1007/3-540-40026-5_7
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