@misc{OrlowskiKosterRaacketal.2006, author = {Orlowski, Sebastian and Koster, Arie M.C.A. and Raack, Christian and Wess{\"a}ly, Roland}, title = {Two-layer Network Design by Branch-and-Cut featuring MIP-based Heuristics}, url = {http://nbn-resolving.de/urn:nbn:de:0297-zib-9412}, number = {06-47}, year = {2006}, abstract = {This paper deals with MIP-based primal heuristics to be used within a branch-and-cut approach for solving multi-layer telecommunication network design problems. Based on a mixed-integer programming formulation for two network layers, we present three heuristics for solving important subproblems, two of which solve a sub-MIP. On multi-layer planning instances with many parallel logical links, we show the effectiveness of our heuristics in finding good solutions early in the branch-and-cut search tree.}, language = {en} } @misc{HuelsermannJaegerKosteretal.2006, author = {H{\"u}lsermann, Ralf and J{\"a}ger, Monika and Koster, Arie M.C.A. and Orlowski, Sebastian and Wess{\"a}ly, Roland and Zymolka, Adrian}, title = {Availability and Cost Based Evaluation of Demand-wise Shared Protection}, url = {http://nbn-resolving.de/urn:nbn:de:0297-zib-9080}, number = {06-15}, year = {2006}, abstract = {In this paper, we investigate the connection availabilities for the new protection scheme Demand-wise Shared Protection (DSP) and describe an appropriate approach for their computation. The exemplary case study on two realistic network scenarios shows that in most cases the availabilities for DSP are comparable with that for 1+1 path protection and better than in case of shared path protection.}, language = {en} } @misc{KosterZymolkaJaegeretal.2003, author = {Koster, Arie M.C.A. and Zymolka, Adrian and J{\"a}ger, Monika and H{\"u}lsermann, Ralf and Gerlach, Christoph}, title = {Demand-wise Shared Protection for Meshed Optical Networks}, url = {http://nbn-resolving.de/urn:nbn:de:0297-zib-7461}, number = {03-24}, year = {2003}, abstract = {In this paper, a new shared protection mechanism for meshed optical networks is presented. Significant network design cost reductions can be achieved in comparison to the well-known 1+1 protection scheme. Demand-wise Shared Protection (DSP) bases on the diversification of demand routings and exploits the network connectivity to restrict the number of backup lightpaths needed to provide the desired level of prorection. Computational experiments approve the benefits of the concept DSP for cost efficient optical network designs.}, language = {en} } @misc{RaackKosterWessaely2007, author = {Raack, Christian and Koster, Arie M.C.A. and Wess{\"a}ly, Roland}, title = {On the strength of cut-based inequalities for capacitated network design polyhedra}, url = {http://nbn-resolving.de/urn:nbn:de:0297-zib-9512}, number = {07-08}, year = {2007}, abstract = {In this paper we study capacitated network design problems, differentiating directed, bidirected and undirected link capacity models. We complement existing polyhedral results for the three variants by new classes of facet-defining valid inequalities and unified lifting results. For this, we study the restriction of the problems to a cut of the network. First, we show that facets of the resulting cutset polyhedra translate into facets of the original network design polyhedra if the two subgraphs defined by the network cut are (strongly) connected. Second, we provide an analysis of the facial structure of cutset polyhedra, elaborating the differences caused by the three different types of capacity constraints. We present flow-cutset inequalities for all three models and show under which conditions these are facet-defining. We also state a new class of facets for the bidirected and undirected case and it is shown how to handle multiple capacity modules by Mixed Integer Rounding (MIR).}, language = {en} }