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COURSE SYLLABUS

Project in Engineering Physics and Electrical Engineering - Electrical Engineering 15 Credits

Projekt Teknisk fysik och Elektroteknik - Elektroteknik
Second cycle, E7025E
Version
Course syllabus valid: Autumn 2016 Sp 1 - Present
The version indicates the term and period for which this course syllabus is valid. The most recent version of the course syllabus is shown first.


Education level
Second cycle
Grade scale
U G#
Subject
Electrical Engineering
Subject group (SCB)
Electrical Engineering

Entry requirements

Good knowledge in signal processing, electronics and measurement technology, for example courses S0001E Signal analysis, E0007E Electronics, E7021E Measurement technology and uncertainty analysis. In addition, in depth knowledge is required in one of the two areas Electronics or Microcomputer engineering and Automatic control according to the following two options (course chains); Option 1 (Electronics): E7009E Electronic design E7012E Mechatronics E7014E Electronics II E7022E Electronics production Option 2 (Microcomputer engineering and Automatic control): D0013E Microcomputer engineering E7020E Embedded System Design R7003E Automatic Control R7004E Nonlinear and Optimal Systems OR R7005E Multivarable and Robust Control Systems


More information about English language requirements


Selection

The selection is based on 20-285 credits



Course Aim
The course will develop the student's aptitude to, alone and within the group, formulate and solve measurement, actuation and control problems. With previously taken courses as foundation, the student will in part deepen his understanding of fundamental principles and in part broaden his or her overview over complete systems. Throughout the course, the student will develop his or her presentation skills and ability to cooperate in a group.

Contents
The course content will be specified, by the examiner, in a detailed course description at course start.

Realization
The course is guided to a great extend by its participants. The instructor defines the industrial problem to be solved. The students plan and execute their solutions to the problem. The students present their progress, including self evaluation, weekly in verbal and written forms. The project is normally performed in cooperation with companies.

The realization of the course will be specified, by the examiner, in a detailed course description at course start.

Examination
The examination of the course will be specified, by the examiner, in a detailed course description at course start and can consist of a public seminar and a written report.

Remarks
The course can not be combined with other project course at advanced level from the Department of Computer Science, Electrical and Space Engineering.

Examiner
Jan van Deventer

Literature. Valid from Autumn 2013 Sp 1
Project courses on advanced level at the Department of Computer Science, Electrical and Space Engineering are of different character and can contain project work, seminars, and lectures. Therefore, it is hard to set the literature in advance. Contact the examiner for more information.

Course offered by
Department of Computer Science, Electrical and Space Engineering

Items/credits
NumberTypeCreditsGrade
0001Project15.0U G#

Study guidance
Study guidance for the course is to be found in our learning platform Canvas before the course starts. Students applying for single subject courses get more information in the Welcome letter. You will find the learning platform via My LTU.

Syllabus established
by Jonny Johansson, HUL SRT 13 Feb 2013

Last revised
by Jonny Johansson, HUL SRT 15 Jun 2016