On the Computational Complexity of Minimum-Concave-Cost Flow in a Two-Dimensional Grid

Abstract

We study the minimum-concave-cost flow problem on a two-dimensional grid. We characterize the computational complexity of this problem based on the number of rows and columns of the grid, the number of different capacities over all the arcs, and the location of sources and sinks. The concave cost over each arc is assumed to be evaluated through an oracle machine, i.e., the oracle machine returns the cost over an arc in a single computational step, given the flow value and the arc index. We propose an algorithm whose running time is polynomial in the number of columns of the grid for the following cases: (1) the grid has a constant number of rows, a constant number of different capacities over all the arcs, and sources and sinks in at most two rows; (2) the grid has two rows and a constant number of different capacities over all the arcs connecting rows; (3) the grid has a constant number of rows and all sources in one row, with infinite capacity over each arc. These are presumably the most general polynom...