Abstract
This research aims to plan a “good-enough” schedule with leveling of resource contentions. We use the existing critical chain project management-max-plus linear framework. Critical chain project management is known as a technique used to both shorten the makespan and observe the due date under limited resources; the max-plus linear representation is an approach for modeling discrete event systems as production systems and project scheduling. If a contention arises within a single resource, we must resolve it by appending precedence relations. Thus, the resolution framework is reduced to a combinatorial optimization. If we aim to obtain the exact optimal solution, the maximum computation time is longer than 10 hours for 20 jobs. We thus experiment with Simulated Annealing (SA) and Genetic Algorithm (GA) to obtain an approximate solution within a practical time. Comparing the two methods, the former was beneficial in computation time, whereas the latter was better in terms of the performance of the solution. If the number of tasks is 50, the solution using SA is better than that using GA.
Highlights
This research aims to plan a “good-enough” schedule with leveling of resource contentions
If a contention arises within a single resource, we must resolve it by appending precedence relations
The former was beneficial in computation time, whereas the latter was better in terms of the performance of the solution
Summary
This research aims to plan a “good-enough” schedule with leveling of resource contentions. References [1] and [2] modified and extended a scheduling methodology referred to as critical chain project management-max-plus linear (CCPM-MPL), in which CCPM [3] [4] was applied to the max-plus algebra [5]. We developed a complete enumeration method by which an exact solution is obtained. We uncovered a preliminary design to obtain a “good-enough” schedule by using Simulated Annealing (SA) [7]. It is not currently clear which of the two methods is better. This research compares the two methods in terms of the performances of their solutions, computation times, and values
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