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Code: DFBLG310 |
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3V+1U (4 Semesterwochenstunden) |
4 |
Studiensemester: 3 |
Pflichtfach: ja |
Arbeitssprache:
Deutsch |
Prüfungsart:
Klausur
[letzte Änderung 12.08.2014]
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DFBLG310 (P620-0328) Internationales Logistik-Management, Bachelor, ASPO 01.10.2018
, 3. Semester, Pflichtfach
DFILM-309 (P620-0410) Internationales Logistik-Management, Bachelor, ASPO 01.10.2019
, 3. Semester, Pflichtfach
DFILM-309 (P620-0410) Internationales Logistik-Management, Bachelor, ASPO 01.10.2022
, 3. Semester, Pflichtfach
DFBLG310 (P620-0328) Logistik, Bachelor, ASPO 01.10.2013
, 3. Semester, Pflichtfach
geeignet für Austauschstudenten mit learning agreement
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Die Präsenzzeit dieses Moduls umfasst bei 15 Semesterwochen 60 Veranstaltungsstunden (= 45 Zeitstunden). Der Gesamtumfang des Moduls beträgt bei 4 Creditpoints 120 Stunden (30 Std/ECTS). Daher stehen für die Vor- und Nachbereitung der Veranstaltung zusammen mit der Prüfungsvorbereitung 75 Stunden zur Verfügung.
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Empfohlene Voraussetzungen (Module):
Keine.
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Als Vorkenntnis empfohlen für Module:
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Modulverantwortung:
Prof. Dr. Teresa Melo |
Dozent/innen: Prof. Dr. Teresa Melo Yvonne Ewen
[letzte Änderung 26.04.2016]
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Lernziele:
After successfully completing this course students will be able to: - describe the assumptions on which linear programming (LP) is built, - formulate LP models on the basis of verbal problem descriptions, - solve LP problems graphically (for two variables) and by using spreadsheet-based optimization software, - interpret the optimal solution to an LP problem and translate it into directives for action, - perform sensitivity analysis and describe the economic information that can be drawn from the analysis, - formulate LP models for transportation planning problems and solve these problems heuristically and optimally, - solve and analyze network problems (e.g. the shortest path problem, the vehicle routing problem) by applying operations research techniques and algorihms, - appreciate the limitations of LP models, - effectively communicate ideas, explain procedures and interpret results and solutions to different audiences.
[letzte Änderung 22.02.2024]
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Inhalt:
- Introduction to Operations Research (OR) - Formulation of a linear programming (LP) model - Graphical solution of an LP model with two variables - Properties of LP problems - The augmented form of an LP model - Formulating and solving LP models on a spreadsheet (MS Excel Solver) - Graphical introduction to sensitivity analysis - Performing sensitivity analysis on a spreadsheet - Economic interpretation of shadow prices and reduced costs - The transportation problem: • Formulation of an LP model • Heuristic methods to find basic feasible solutions • Methods to find the optimal solution - Introduction to graph theory • Basic concepts • The shortest path problem (SPP) • Solving the SPP with the Dijkstra algorithm • The vehicle routing problem (VRP) • The savings method to determine feasible vehicle tours • Heuristic methods to improve feasible vehicle tours
[letzte Änderung 22.02.2024]
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Weitere Lehrmethoden und Medien:
Lectures supported by beamer (theory, concepts and examples). Spreadsheet-based optimization software (MS Excel Solver), exercises, homework assignments
[letzte Änderung 22.02.2024]
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Literatur:
F.S. Hillier, G.L. Lieberman (2021), Introduction to Operations Research, 11th edition, McGraw Hill, New York W.L. Winston (2004), Operations Research: Applications and Algorithms, 4th edition, Cengage Learning
[letzte Änderung 22.02.2024]
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