Journal article

An exact algorithm for the bottleneck 2-connected k-Steiner network problem in Lp planes

M Brazil, CJ Ras, DA Thomas

Discrete Applied Mathematics | ELSEVIER | Published : 2016

Abstract

We present the first exact polynomial time algorithm for constructing optimal geometric bottleneck 2-connected Steiner networks containing at most k Steiner points, where k>2 is a constant. Given a set of n vertices embedded in an Lp plane, the objective of the problem is to find a 2-connected network, spanning the given vertices and at most k additional vertices, such that the length of the longest edge is minimised. In contrast to the discrete version of this problem the additional vertices may be located anywhere in the plane. The problem is motivated by the modelling of relay-augmentation for the optimisation of energy consumption in wireless ad hoc networks. Our algorithm employs Vorono..

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