In this paper, we consider some scheduling problems on a single machine, where a specific objective function has to be maximized
in contrast to usual minimization problems. These problems are theoretically important and have also practical interpretations. We present some complexity results for such maximization problems with classical objective functions (e.g. total tardiness, number of tardy jobs and total completion time) and various additional constraints (e.g. deadlines, weights and/or release dates of jobs may be given). As a generalization, we consider a classical combinatorial problem with an opposite optimization criterion, namely a minimization version of the knapsack problem, for which we give an NP-hardness proof and an exact pseudo-polynomial algorithm.
E.R. Gafarov, A.A. Lazarev and F. Werner (2010), Single machine total tardiness maximization problems: complexity and algorithms.Annals of Operation Research, doi:10.1007/s10479-012-1288-x, Volume 207, Issue 1, pp 121-136 (journal impact factor 2018: 2.284). Q1