Last modified: 10/09/2002
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Course Code: wb3417 |
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Course name: Discrete
Systems: Modeling, Prototyping, Simulation and
Control
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DUT credit
points: 2 |
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ECTS credit
points: 3 |
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Sub-faculty of
Mechanical Engineering and Marine Technology |
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Lecturer(s): Dr. Ir. J.A.
Ottjes, Ir. H.P.M. Veeke, Ir. F.P.M. Sopers, Ir.
M.B. Duinkerken |
Tel.: 015-27 84318 |
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Catalogue data: Modeling, discrete simulation, process, logistics, production,
transport |
Course year: |
MSc 1st year |
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Period: |
1A / 1B |
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Hours per week: |
2 |
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Other hours: |
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Assessment: |
Written test +Practical |
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Assessment
period: |
1, 2 |
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(see academic
calendar) |
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Educational
requirements: |
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Follow up: |
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Detailed
description of topics: This is a course on the modeling of discrete
systems for transport and production. It deals with a method to quickly
design flexible prototype models and to implement them in a simulation
environment. The method is based on the systems approach in combination with
process-orientated modeling. Special attention is paid to the modeling of
controls and the use of these models for real-time control. A number of
practical examples, including a production process, a transport system and a
port will be considered. The first part of the course ends with a written
test. Those who have attained a satisfactory result will be admitted to
second part of the course. This takes the form of a practical. The students,
working in project groups, develop models of realistic cases. Following on
from this, a model or part thereof is implemented in a distributed simulation
environment (Tomas: see www.tomasweb.com). |
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Course
material: A text book (in preparation), hand outs, recent
publications in the subject area and a Web site:
www.tomasweb.com |
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References from
the literature: |
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Remarks
(Specific information relating to assessment, entry requirements, etc.): This main subject lecture course is provided by the
Transport Technology (TT) and the
Production Technology and Organization (PTO)
sections of the Faculty of Design, Construction and Production. The first part of the course will be followed by
written test. It the result of the written test is satisfactory, students may
proceed to the second part of the course. This comprises a practical, in
which students working in project groups, make a model (in the form of a
written exercise) and the implement the model in a simulation language. The
course concludes with a short report. The final assessment is based on the combined
results of the written test and the practical. |
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Learning goals: Analysis and modeling with the aid of the systems
approach and process approach and introduction to the implementation of
simulation models. |
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Computer use: Use of discrete simulation software |
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Laboratory
project(s): The modeling and implementation of a case |
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Design content: The modeling of a system has a major design component |
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Percentage of
design: 50. % |
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