1. Mathematical foundations of applied computational methods (summary of methods of probability theory and mathematical statistics needed for further study)
2. Project management – CPM method.
3. Project management – PERT method.
4. The issue of maximizing profit from production – application of linear programming (graphic solution of linear programming problem)
5. The issue of effective material division.
6. The issue of effective repair planning.
7. Inventory theory – dynamic deterministic model without deficit.
8. Inventory theory – dynamic stochastic model with deferred demand.
9. Restoration theory – models of repairable objects.
10. Restoration theory – models of non-repairable objects (discrete homogeneous models – calculation of the average service life of an object, set of restoration equations).
11. Restoration theory – models of non-repairable objects (discrete homogeneous models – determination of the age structure of objects, estimation of failure probabilities).
12. Investment activity of the enterprise – static and dynamic methods of evaluating the effectiveness of investments.
13. Specialized lecture by a practitioner.
E-learning
N/A.
Literature
RIED, R., D.; SANDERS, N., R.: Operations Management. John Wiley & Sons Inc, 2024, 672 s. ISBN 978-13-94226-42-9
Advised literature
KRAJEWSKI, L., J.; MALHOTRA, M., K.: Operations Management: Processes and Supply Chains. Global Edition, 2025, 696 s. ISBN 978-12-92731-11-7