On Minimizing Nonseparable Functions Defined on the Integers with an Inventory Application

The general form of the problem considered is: \[ {\text{Find}}\,{\text{the}}\,{\text{infimum}}\,{\text{of}}\,f:X \to R, \] where X is a discrete rectangle, that is to say, \[ X = \{ {x:x \in I^n ,a_i \leqq x_i \leqq b_i ,i = 1, \cdots ,n} \}, \]I is the set of integers $\{ { \cdots , - 2, - 1,0, + 1, \cdots } \}$, $a_i $, $b_i $ are integers or infinite, and R is the real line.A condition called discrete convexity is developed for functions f which is a sufficient condition for a local optimum of f to be a global optimum of f. A general solution strategy is given, and computational results are presented which show the possibility of solving this problem in cases where n is in the hundreds.