Discrete nonlinear functions: formulations and applications in retail revenue management

This paper examines nonlinear optimization problems that incorporate discrete decisions. We introduce new improved formulation techniques that take advantage of the simplotope structure present in the domain of the binarization variables. Our technique identifies new polynomially solvable instances for price promotion problem initially studied by Cohen et al. (2021) and allows us to develop a linear programming (LP) formulation for inventory optimization problem under a choice model proposed by Boada-Collado and Martinez-de Albeniz (2020). The techniques we develop rely on ideal formulations for submodular and fractional compositions of discrete functions, improving prior formulations for bilinear products suggested by Adams and Henry (2012). Submodular compositions also generalize L natural functions over bounded domains and our construction provides new insights into Lovasz-extension based formulations for this class of problems while expanding the class of nonlinear discrete optimization problems amenable to linear programming based techniques.