Manuskripte aus den Instituten für Betriebswirtschaftslehre der Universität Kiel No. 527
In project management, the project duration can often be compressed by accelerating some of its activities at an additional expense. This is the so-called time-cost tradeoff problem which has been extensively studied in the past. However, the discrete version of the problem which is of great practical relevance, did not receive much attention so far. Given a set of modes (time-cost pairs) for each activity, the objective of the discrete time-cost tradeoff problem is to select a mode for each activity so that the total cost is minimized while meeting a given project deadline. The discrete time-cost tradeoff problem is a strongly NP-hard optimization problem for general activity networks. In terms of what current state-of-art-algorithms can do, instances with (depending on the structure of the network and the number of processing alternatives per activity) no more than twenty to fifty activities can be solved to optimality in reasonable amount of time. Hence, heuristics must be employed to solve larger instances. To evaluate such heuristics, lower bounds are needed. The aim of this paper is to provide such lower bounds using column generation techniques based on "network decomposition". We will show that a heuristic solution can be derived from that result as well. Furthermore, a computational study is provided to demonstrate that the presented bounds are tight and that large and hard instances can be solved in short run-time.