700.500 (18W) CAE of Mechatronic Systems I

Wintersemester 2018/19

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Erster Termin der LV
09.11.2018 10:00 - 16:00 L4.1.02 ICT-Lab Off Campus
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Überblick

Lehrende/r
LV-Titel englisch CAE of Mechatronic Systems I
LV-Art Vorlesung-Kurs (prüfungsimmanente LV )
Semesterstunde/n 2.0
ECTS-Anrechnungspunkte 4.0
Anmeldungen 10 (25 max.)
Organisationseinheit
Unterrichtssprache es wurde keine Unterrichtssprache angegeben
LV-Beginn 09.11.2018
eLearning zum Moodle-Kurs

Zeit und Ort

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LV-Beschreibung

Intendierte Lernergebnisse

Acquire physical background knowledge and experience in the computer aided design of mechatronic systems.

Inhalt/e

Computeraided design and optimization gains more and more importance in the developmentprocess of new products. A comprehensive knowledge about the physical effects and numerical schemes is essential for setting up useful numerical simulations. After an engineering oriented introduction to the mathematical modeling of materials, the students will learn to use numerical simulation to design andoptimize entire mechatronic systems. With respect to the development of “smartsystems” it is recommended to attend “Measurement Signal Processing” inparallel. 

Fundamentals

  • Electrical material properties : Conductivity, Permittivity, Permeability
  • Mechanical material properties
  • Mathematical modeling

Physical Effects, such as

  • Piezoelectricity (e.g. energy harvesting, nano-positioning)
  • Piezoresistivity (e.g. static force measurement)
  • (Di-)Electrophoresis (e.g. e-ink)
  • Hall, AMR, GMR, Fluxgate (e.g. submarine navigation)
  • Electrooptical and magnetooptical effects

Introduction to numerical methods

  • FEM, (FIT, BEM optional)
  • Stationary/transient analysis

 Application examples


Literatur

Will be given in the course.

Intendierte Lernergebnisse

Acquire physical background knowledge and experience in the computer aided design of mechatronic systems.

Lehrmethodik inkl. Einsatz von eLearning-Tools

Computeraided design and optimization gains more and more importance in the developmentprocess of new products. A comprehensive knowledge about the physical effects and numerical schemes is essential for setting up useful numerical simulations. After an engineering oriented introduction to the mathematical modeling of materials, the students will learn to use numerical simulation to design andoptimize entire mechatronic systems. 

Inhalt/e

Fundamentals

  • Electrical material properties : Conductivity, Permittivity, Permeability
  • Mechanical material properties
  • Mathematical modeling

Physical Effects, such as

  • Piezoelectricity (e.g. energy harvesting, nano-positioning)
  • Piezoresistivity (e.g. static force measurement)
  • (Di-)Electrophoresis (e.g. e-ink)
  • Hall, AMR, GMR, Fluxgate (e.g. submarine navigation)
  • Electrooptical and magnetooptical effects

Introduction to numerical methods

  • FEM, (FIT, BEM optional)
  • Stationary/transient analysis

 Application examples


Erwartete Vorkenntnisse

With respect to the development of “Smart Systems” it is recommended to attend “Measurement Signal Processing” inparallel. 

Prüfungsinformationen

Im Fall von online durchgeführten Prüfungen sind die Standards zu beachten, die die technischen Geräte der Studierenden erfüllen müssen, um an diesen Prüfungen teilnehmen zu können.

Beurteilungsschema

Note Benotungsschema

Position im Curriculum

  • Masterstudium Information and Communications Engineering (ICE) (SKZ: 488, Version: 15W.1)
    • Fach: Information and Communications Engineering: Supplements (NC, ASR) (Wahlfach)
      • Wahl aus dem LV-Katalog (Anhang 4) ( 0.0h VK, VO, KU / 14.0 ECTS)
        • 700.500 CAE of Mechatronic Systems I (2.0h VC / 4.0 ECTS)
  • Masterstudium Information and Communications Engineering (ICE) (SKZ: 488, Version: 15W.1)
    • Fach: Technical Complements (NC, ASR) (Wahlfach)
      • Wahl aus dem LV-Katalog (Anhang 5) ( 0.0h VK, VO, KU / 12.0 ECTS)
        • 700.500 CAE of Mechatronic Systems I (2.0h VC / 4.0 ECTS)
  • Masterstudium Information and Communications Engineering (ICE) (SKZ: 488, Version: 15W.1)
    • Fach: Information and Communications Engineering: Supplements (NC, ASR) (Wahlfach)
      • Wahl aus dem LV-Katalog (Anhang 4) ( 0.0h VK, VO, KU / 14.0 ECTS)
        • 700.500 CAE of Mechatronic Systems I (2.0h VC / 4.0 ECTS)
  • Masterstudium Information and Communications Engineering (ICE) (SKZ: 488, Version: 15W.1)
    • Fach: Technical Complements (NC, ASR) (Wahlfach)
      • Wahl aus dem LV-Katalog (Anhang 5) ( 0.0h VK, VO, KU / 12.0 ECTS)
        • 700.500 CAE of Mechatronic Systems I (2.0h VC / 4.0 ECTS)
  • Masterstudium Information and Communications Engineering (ICE) (SKZ: 488, Version: 15W.1)
    • Fach: Autonomous Systems and Robotics: Advanced (ASR) (Wahlfach)
      • Wahl aus dem LV-Katalog (siehe Anhang 3) ( 0.0h VK, VO / 30.0 ECTS)
        • 700.500 CAE of Mechatronic Systems I (2.0h VC / 4.0 ECTS)
  • Masterstudium Information and Communications Engineering (ICE) (SKZ: 488, Version: 15W.1)
    • Fach: Autonomous Systems and Robotics (WI) (Wahlfach)
      • Wahl aus dem LV-Katalog (siehe Anhang 3) ( 0.0h VK, VO / 30.0 ECTS)
        • 700.500 CAE of Mechatronic Systems I (2.0h VC / 4.0 ECTS)
  • Masterstudium Information Technology (SKZ: 489, Version: 06W.3)
    • Fach: Technischer Schwerpunkt (Applied Mechatronics) (Pflichtfach)
      • 1.1-1.3 Vorlesung mit Kurs oder Vorlesung mit Seminar ( 6.0h VK/VS / 12.0 ECTS)
        • 700.500 CAE of Mechatronic Systems I (2.0h VC / 4.0 ECTS)
  • Masterstudium Information Technology (SKZ: 489, Version: 06W.3)
    • Fach: Technische Ergänzung I (Pflichtfach)
      • 2.1-2.2 Vorlesung mit Kurs oder Vorlesung mit Seminar ( 4.0h VK/VS / 8.0 ECTS)
        • 700.500 CAE of Mechatronic Systems I (2.0h VC / 4.0 ECTS)
  • Masterstudium Information Technology (SKZ: 489, Version: 06W.3)
    • Fach: Technische Ergänzung II (Pflichtfach)
      • 3.1-3.3 Vorlesung mit Kurs oder Vorlesung mit Seminar ( 6.0h VK/VS / 12.0 ECTS)
        • 700.500 CAE of Mechatronic Systems I (2.0h VC / 4.0 ECTS)
  • Masterstudium Information Technology (SKZ: 489, Version: 06W.3)
    • Fach: Research Track (Methodischer Schwerpunkt) (Pflichtfach)
      • 4.2'-4.3' Theoretisch-Methodische Lehrveranstaltung I/II ( 0.0h VO/VK/VS/KU/PS / 6.0 ECTS)
        • 700.500 CAE of Mechatronic Systems I (2.0h VC / 4.0 ECTS)
  • Masterstudium Mathematics (SKZ: 401, Version: 18W.1)
    • Fach: Information and Communications Engineering (Wahlfach)
      • 9.8 CAE of Mechatronic Systems I ( 2.0h VC / 4.0 ECTS)
        • 700.500 CAE of Mechatronic Systems I (2.0h VC / 4.0 ECTS)

Gleichwertige Lehrveranstaltungen im Sinne der Prüfungsantrittszählung

Wintersemester 2023/24
  • 700.500 VC CAE of Mechatronic Systems I (2.0h / 4.0ECTS)
Wintersemester 2022/23
  • 700.500 VC CAE of Mechatronic Systems I (2.0h / 4.0ECTS)
Wintersemester 2021/22
  • 700.500 VC CAE of Mechatronic Systems I (2.0h / 4.0ECTS)
Wintersemester 2020/21
  • 700.500 VC CAE of Mechatronic Systems I (2.0h / 4.0ECTS)
Wintersemester 2019/20
  • 700.500 VC CAE of Mechatronic Systems I (2.0h / 4.0ECTS)
Wintersemester 2017/18
  • 700.500 VC CAE of Mechatronic Systems I (2.0h / 4.0ECTS)
Wintersemester 2016/17
  • 700.500 VC CAE of Mechatronic Systems I (2.0h / 4.0ECTS)
Wintersemester 2015/16
  • 700.500 VC CAE of Mechatronic Systems I (2.0h / 4.0ECTS)
Wintersemester 2014/15
  • 700.500 VK CAE of Mechatronic Systems I (2.0h / 4.0ECTS)
Wintersemester 2013/14
  • 700.500 VK CAE of Mechatronic Systems I (2.0h / 4.0ECTS)
Wintersemester 2011/12
  • 700.500 VK CAE of Mechatronic Systems I (2.0h / 4.0ECTS)