Journal of the Indian Institute of Science

Link prediction in graphs is studied by modeling the dyadic
interactions among two nodes. The relationships can be more complex
than simple dyadic interactions and could require the user to model
super-dyadic associations among nodes. Such interactions can be modeled
using a hypergraph, which is a generalization of a graph where a
hyperedge can connect more than two nodes. In this work, we consider
the problem of hyperedge prediction in a k-uniform hypergraph. We utilize
the tensor-based representation of hypergraphs and propose a novel
interpretation of the tensor eigenvectors. This is further used to propose
a hyperedge prediction algorithm. The proposed algorithm utilizes the
Fiedler eigenvector computed using tensor eigenvalue decomposition of
hypergraph Laplacian. The Fiedler eigenvector is used to evaluate the
construction cost of new hyperedges, which is further utilized to determine
the most probable hyperedges to be constructed. The functioning
and efficacy of the proposed method are illustrated using some example
hypergraphs and a few real datasets. The code for the proposed method
is available on https:// github. com/d- maurya/ hypred_ tenso rEVD.