Abstract :
We present a mixed-integer programming model for the problem of designing a survivable capacitated network, and describe a cutting plane algorithm for its solution. The model and the solution methods are integrated in our network dimensioning tool, DISCNET. Given a communication demand between each pair of switching nodes in a region, the task is to determine the topology of a telecommunication network connecting the given nodes and to select, from a given set of valid values, a capacity for each potential physical link such that the communication demands are satisfied, even if a network component fails. A solution consists of the chosen links and their capacity, as well as the routings for each demand, in the case of failure-free operation and the case of single component (node or link) failure. We suggest two alternative models to deal with failures of single network components. The first employs diversified paths to guarantee the routing of a specified fraction of each demand without rerouting effort; the second allows rerouting in failure situations. At the end we discuss alternative ways to implement survivability using these two models
Keywords :
channel capacity; integer programming; land mobile radio; network topology; planning; radio links; radio networks; telecommunication network reliability; telecommunication network routing; DISCNET; cutting plane algorithm; diversified paths; failure-free operation; link capacity; link failure; mixed-integer programming model; models; network dimensioning tool; network nodes; node failure; physical link; rerouting; routing; routings; single network components failure; solution methods; survivable capacitated network design; survivable mobile phone network architectures; switching nodes; telecommunication network topology; Communication switching; Costs; Mobile handsets; Multiplexing; Protection; Quality of service; Routing; Synchronous digital hierarchy; Telecommunication network topology; Telecommunication switching;
