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We consider integer programming problems in standard form max{c(T)x : Ax = b, x >= 0, x is an element of Z(n)} where A is an element of Z(mxn), b is an element of Z(m), and c is an element of Z(n). We show that such an integer program can be solved in time (m . Delta)(O(m)). parallel to b parallel to(2)(infinity). where A is an upper hound on each absolute value of an entry in A. This improves upon the longstanding best bound of Papadiniitriou [27] of (m . Delta)(O(m2)), where in addition, the absolute values of the entries of b also need to be bounded by Delta. Our result relies on a lemma of Steinitz that states that a set of vectors in R-m that is contained in the unit ball of a norm and that sum up to zero can be ordered such that all partial sums are of norm bounded by m. We also use the Steinitz lemma to show that the l(1)-distance of an optimal integer and fractional solution, also under the presence of upper bounds on the variables, is bounded by m . (2 m . Delta + 1)(m). Here Delta is again an upper bound on the absolute values of the entries of A. The novel strength of our bound is that it is independent of n. We provide evidence for the significance of our bound by applying it to general knapsack problems where we obtain structural and algorithmic results that improve upon the recent literature.
Yves-Marie François Ducimetière
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