Model-Based Systems Engineering2019VT
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Course plan
No of lectures
42 hours
Recommended for
Ph.D. students and practitioners in engineering and/or computer science.
The course was last given
New course
Goals
After the course, students should be able to:
• Describe how products and services from different technical areas can
be integrated into a system.
• Describe basic concepts in Systems Engineering.
• Specify and analyze system requirements.
• Design and model a system architecture.
• Use a modeling languages such as Modelica and UML to describe a small
systen.
• Model, analyze, simulate, and optimize a system.
• Plan implementation of a system.
• Validate a system.
• Perform environmental and lifecycle design and management of a system
Prerequisites
General undergraduate level knowledge in engineering, mathematics, programming languages and programming.
Organization
Lectures integrated with interactive exercises, a few small project assignments, and a medium-sized project on modeling and optimizing a hybrid vehicle.
Contents
This is an introductory course in systems engineering with emphasis on model-based systems development, design, and analysis using tools. The course include general methods which are useful within a range of system engineering domains, e.g., computer science, software engineering, machine design, electrical engineering, vehicular systems, aerospace applications, transport systems, project management
Literature
The course will use a set of resources on theoretical se well as practical
matters pertaining to Systems Engineering.
• Peter Fritzson. Principles of Object-Oriented Modeling and Simulation
with Modelica 3.3. Wiley-IEEE Press, 2015.
• The DrModelica Interactive Electronic Notebook, downloadable from
www.openmodelica.org as part of OpenModelica
• Selected publications on lifecycle management, requirement
formalization and verification
• Functional Mockup Interface (FMI) Overview. Slide presentation.
• Papers on optimization
• Papers on systems engineering
Lecturers
Peter Fritzson, IDA/Software and Systems
Lars Eriksson, ISY/Vehicular Systems
Kristian Sandahl, IDA/ Software and Systems
Robert Braun, IEI/Machine Design
Ola Leifler, IDA/ Software and Systems
Lena Buffoni, IDA/ Software and Systems
Lennart Ochel, IDA/ Software and Systems
Erik Herzog, Saab, invited lecturer
Examiner
Peter Fritzson and Lena Buffoni
Examination
Joint project assignments on modeling, verification and simulation,
including the medium-sized course project on modeling and optimizing an
electric vehicle, and individual oral examination on theoretical matter and
project assignments at the end of the course.
Credit
6 HEC
It is possible to get 1-2 extra credits for a small project of your own choice
People who already know Modelica can/should skip the two Modelica course days
and the associated theoretical matter. However, to compensate, they should
suggest a small project or related theoretical matter of their own choice, to
be approved by the course leader.
Comments
The course will be open for PhD students from several departments at LiU, most notably IDA, ISY, and IEI.
Page responsible: Director of Graduate Studies