Abstract
In this paper, we consider a random geometric graph (RGG) G on n nodes with adjacency distance rn just below the Hamiltonicity threshold and construct Hamiltonian cycles using additional edges called bridges. The bridges by definition do not belong to G and we are interested in estimating the number of bridges and the maximum bridge length, needed for constructing a Hamiltonian cycle. In our main result, we show that with high probability, i.e. with probability converging to one as n →∞, we can obtain a Hamiltonian cycle with maximum bridge length a constant multiple of rn and containing an arbitrarily small fraction of edges as bridges. We use a combination of backbone construction and iterative cycle merging to obtain the desired Hamiltonian cycle.
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