Geometric and spectral analysis on weighted digraphs

Abstract

In this article we give a geometrical description of the (in general non-selfadjoint) in/out Laplacian L+/- = (d+/-)* d and adjacency matrix on digraphs with arbitrary weights, where (d+/-)* is the adjoint of the evaluation map d+/- on the terminal/initial vertex of each arc and d = d+ + d- denotes the discrete gradient. We prove that the multiplicity of the zero eigenvalue of L+/- = (d+/-)* d coincides with the number of sources/sinks of the digraph. We also show that for an acyclic digraph with combinatorial weights the spectrum is contained in the set of non-zero integers. The geometrical perspective allows to interpret the set of circulations C of a weighted digraph as coclosed forms on the arcs, i.e. as the kernel of the discrete divergence d*. Moreover, C is perpendicular to the set of discrete gradients of functions on the vertices. We also give formulas to compute the capacity of a cut and the value of a flow in terms of L- and d. We illustrate the results with many concrete examples.