Minimum bounded chains and minimum homologous chains in embedded simplicial complexes

Abstract

We study two optimization problems on simplicial complexes with homology over Z2, the minimum bounded chain problem: given a d-dimensional complex K embedded in Rd+1 and a null-homologous (d-1)-cycle C in K, find the minimum d-chain with boundary C, and the minimum homologous chain problem: given a (d+1)-manifold M and a d-chain D in M, find the minimum d-chain homologous to D. We show strong hardness results for both problems even for small values of d; d = 2 for the former problem, and d=1 for the latter problem. We show that both problems are APX-hard, and hard to approximate within any constant factor assuming the unique games conjecture. On the positive side, we show that both problems are fixed parameter tractable with respect to the size of the optimal solution. Moreover, we provide an O( βd)-approximation algorithm for the minimum bounded chain problem where βd is the dth Betti number of K. Finally, we provide an O( nd+1)-approximation algorithm for the minimum homologous chain problem where nd+1 is the number of d-simplices in M.