Key points are not available for this paper at this time.
Given a subgroup H of a product of finite groups G = ⁿ₈=₁ ᵢ and b>1, we define a polymatroid P (H, b). If all of the ᵢ are isomorphic to Z/pZ, p a prime, and b=p, then P (H, b) is the usual matroid associated to any Z/pZ-matrix whose row space equals H. In general, there are many ways in which the relationship between P (H, b) and H mirrors that of the relationship between a matroid and a subspace of a finite vector space. These include representability by excluded minors, the Crapo-Rota critical theorem, the existence of a concrete algebraic object representing the polymatroid dual of P (H, b), analogs of Greene's theorem and the MacWilliams identities when H is a group code over a nonabelian group, and a connection to the combinatorial Laplacian of a quotient space determined by G and H. We use the group Crapo-Rota critical theorem to demonstrate an extension to hypergraphs of the classical duality between proper colorings and nowhere-zero flows on graphs.
Swartz et al. (Tue,) studied this question.
Synapse has enriched 5 closely related papers on similar clinical questions. Consider them for comparative context: