A simulation-based approximate dynamic programming approach to dynamic and stochastic resource-constrained multi-project scheduling problem
Abstract
We consider the dynamic and stochastic resource-constrained multi-project scheduling problem which allows
for the random arrival of projects and stochastic task durations. Completing projects generates rewards, which
are reduced by a tardiness cost in the case of late completion. Multiple types of resource are available, and
projects consume different amounts of these resources when under processing. The problem is modelled as
an infinite-horizon discrete-time Markov decision process and seeks to maximise the expected discounted
long-run profit. We use an approximate dynamic programming algorithm (ADP) with a linear approximation
model which can be used for online decision making. Our approximation model uses project elements that
are easily accessible by a decision-maker, with the model coefficients obtained offline via a combination of
Monte Carlo simulation and least squares estimation. Our numerical study shows that ADP often statistically
significantly outperforms the optimal reactive baseline algorithm (ORBA). In experiments on smaller problems
however, both typically perform suboptimally compared to the optimal scheduler obtained by stochastic
dynamic programming. ADP has an advantage over ORBA and dynamic programming in that ADP can be
applied to larger problems. We also show that ADP generally produces statistically significantly higher profits
than common algorithms used in practice, such as a rule-based algorithm and a reactive genetic algorithm.
Source
European Journal of Operational ResearchVolume
315Issue
2Collections
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