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University of Siegen

International Graduate Studies in Mechatronics

http://www.uni-siegen.de/mechatronics

Deadline 30th April

* 1st and 2nd semester: graduate courses in Control and System Theory, Electrical Engineering, Electronics, Mechanical Engineering with the corresponding laboratories
* 3rd semester: Advanced Control Theory, Applied Computer Science and Mechatronics
* 4th semester: Master Thesis in one of the active research groups of the department




Fachhochschule Ravensburg-Weingarten

Mechatronics

http://www.hs-weingarten.de/index_html?_ZopeId=62313469A3tOoMEYBEQ

www.msc.hs-weingarten.de

3 Sem

EUR 500.- per semester

Deadline April 30th

Course content

First semester (MM1)

- Basics of Electronics

- Electrical Drives

- Embedded Computing

- Engineering Design and Materials

- Engineering Mechanics

- Integration of Mechatronic Systems

- Process Interface Equipment

- Programming in C

- Simulation of Mechatronic Systems

- Working in International Scientific Project Teams

Second semester (MM2)

- Automation

- Advanced Control

- Microsystems and Materials

- Robotics

- Lab on Robotics

- Lab on Process Interface Equipment

- Scientific Project

Third semester (MM3)

- Optional Modules

- Master's thesis

South Westphalia University of Applied Sciences:

Systems Engineering & Engineering Management

www.fh-swf.de/mse

Programme Duration

3 Semesters

Cost: 500 EUR per semester

Deadline May 31st

Description of Content

The central aims for the course "Systems Engineering and Engineering Management" arise out of the changed catalogue of requirements in the area of engineering. Changing working procedures and rationalised processes force engineers to be more and more involved with organisational duties. Key qualifications like team and group work, project organisation, communication and presentation thus become steadily more important as parallel skills and activities alongside the classical technical spectrum of requirements. These requirements can be conveyed by combining the fields of engineering, management, and economics.

The course offers three different pathways: Electronic, Mechanical and Mechatronic systems. Students taking the Electronics pathway will take two electronics modules. Likewise students taking the Mechanical pathway will take two mechanical modules. Students taking the Mechatronics pathway will take one mechanical and one electronics module. The final project module will be related to the pathway subject. The course structure has four subject-based components. These are:

- Systems Engineering

- Management Systems

- An engineering subject discipline

- A project based on the pathway

Only the engineering subject discipline differentiates the taught elements of the course, the other components are common to all pathways. The engineering discipline bears the pathway name.

The programme structure reflects the common generic systems approach to engineering and management. The course treats the systems approach to engineering as generic; this is reflected in the two systems modules: Intelligent Systems and Advanced Control Technology. Engineering Management is addressed by four modules: Business in Engineering, Technical Publications and Presentations, Project Management and Integrated Management. Two engineering subject-specific modules define the pathway and focus on the application of the generic system engineering methods in specific application areas. The two electronics modules are Microprocessor based systems and Signal Processing. The two mechanical modules are Monitoring of Mechanical Systems and Advanced Production Engineering. A project module integrates the taught elements of the course. The project can be based on either the engineering pathway or engineering management.

Furtwangen FH

Microsystems engineering

http://www.iclab.fh-furtwangen.de/master/start.html

MEMS (Micro Electro Mechanical Systems). The program is made up of four main components: 1. Microsystems Engineering; 2. Electrical Engineering and Computer Science; 3. Electrodynamics; 4. Electives.

Programme Duration

3 semesters

Cost 500 Euros Per term

Deadline 15th may

Description of Content

The curriculum is divided into the five module groups Electronics, Computer Science, Physical Technology, Electrodynamics and Electives. Students can choose from several modules offered in each module group.

Core course modules from the module groups Electronics, Computer Science and Physical Technology prepare the students for the important occupational fields of design, technology and application of microsystems.

The module group Electronics covers the field of electrical engineering, offering courses in applications and properties of bipolar and MOS devices, digital signal processing, IC-design, simulation of electronic devices and circuits and advanced control of microsystems.

The main target of the Computer Science module group is to provide our students with advanced knowledge in the field of computer engineering such as: embedded systems, understanding the basics of finite elements methods-algorithms, hardware algorithms and basic numerical methods to solve technical and IT problems.

In the module group Physical Technology, our students learn physical technologies of microsystems such as: modern processes for construction of microsystems, basic concepts for microsensors and microactors as the most important examples of microsystems, characterisation technology and basic concepts and essential elements of optics and photonics.

Providing our students with in-depth scientific and analytical skills is the main target of the Electrodynamics module group.

In the module group Electives, students can improve their soft skills, including languages.

Additionally, students will gain practical experience in research-related fields of microsystems engineering through a project conducted in modern laboratories with state-of-the-art equipment


Universitat Freiburg

MSc in Microsystems Engineering

http://www.imtek.de/index_en.php

Tuition Fees 500 EUR per semester

Duration 4 Sem

Deadline 1st may

Description of Content

The Master of Science programme in Microsystems Engineering is offered by the Department of Microsystems Engineering (IMTEK) at the University of Freiburg. This two-year, English-language programme is designed for highly qualified graduate students who have a Bachelor's degree in Engineering or Science and are looking for advanced training in one of the most dynamic and interdisciplinary fields of engineering.

Microsystems, MEMS, or micromachines - there are many names for an exciting discipline of engineering which combines expertise from areas as diverse as electrical engineering, biology, manufacturing technology and chemistry and thus allows engineers to conceive highly miniaturised, multi-functional systems with capabilities limited only by their imagination. Retinal implants to help the blind to see; a clinical blood analysis laboratory on a micro-chip; autonomous optical systems for imaging inside the body - these are just a few examples of the roles microsystems will play in all of our lives.

The four semester programme, taught at one of the world's top academic microsystems research departments, combines extensive course work in advanced Microsystems Engineering with a concentration in two of seven sub-disciplines, ranging from Materials to the Life Sciences. The required one year Master's thesis will be based on project work performed directly in a professor's research group, giving the graduate extensive, hands-on experience using the state-of-the-art microsystems infrastructure at IMTEK.

The educational and social environment assures success: the University of Freiburg is one of Germany's leading research universities, with top-ranked departments in the Sciences and Humanities.




Fachhochschule Darmstadt

M/s in Electrical Engineering

http://www.fh-darmstadt.de/engl/msc/msc_ind.htm

Deadline April 1st

1st semester: two modules out of: Basics of System Design, Advanced Software Design, Foundations of Microelectronic Systems, Principles of Communications, Automation Systems2nd semester: two modules out of: Technical Management, Communications, Robotics, Power Electronics Systems, Advanced Microelectronic Systems 3 semester: industrial practical training period 4th semester: Master’s Thesis (usually performed in a company)

Deggendorf FH

Master of Science in Electrical Engineering

http://www.fh-deggendorf.de/et/Master.html

Online test is needed if qualified after the application

Deadline 15th June

Courses of the joint study:
theoretical computer sciences;quantum-mechanics / quantum-electrodynamics
theoretical electrodynamics;modelling and simulation (special fields)
modern methods of control techniques;communication technology III
general scientific compulsory optional subject;seminar
Main focus Micro- and Optoelectronics; microelectronics and technology of microsystems I
optoelectronics / lasertechnology I;communication technology II
numerical methods / data analysis;special fields of microelectronics and technology of microsystems
theory of electronic devices;special fields of optoelectronics / lasertechnology
Main focus Technical Computer Sciences
communication and network technology;database systems
modelling and simulation;numerical methods / data analysis
software-engineering (special fields);modern realtime operating systems
theory of digital image processing


Fachhochschule Rosenheim

Master of Science in Electrical Engineering

http://www.fh-rosenheim.de/eeit-master.html

Duration : 3 term

Tuition fee : 600 euros per term

Deadline 15th June

Course Content:

Specialization in Communications: Digital Signal Processing, Digital Communications, Channel Coding, Wireless Applications, HF & Microwave Engineering, Integrated Circuit Design, Analog Circuits # specialization in Automation Technology: Advanced Control Systems, Industrial Robots, Industrial Process Control and CNC, Electrical Motion Control, Real-Time Systems, Software Engineering Advanced mathematical and EE fundamentals: Electromagnetic Theory, Numerical Mathematics, Solid State Electronics


University of Magdeburg

Electrical Engineering and Information Technology

www.et.uni-magdeburg.de/master

Duration : 4 term

Tuition fee : nominal

Course content

During the Master's programme Electrical Engineering and Information Technology the students acquire advanced knowledge and skills in modern electrical and information technologies. The curriculum consists of a total of seven compulsory courses:

Electromagnetic Field Theory, Electronic Circuits, Digital Communication Systems, Digital Information Processing, Power Electronics, Power Network Planning and Operation, Systems and Control.

The specialised optional courses are designed to provide students with knowledge, insight and skills in sophisticated technololgies according to the main research areas of the Department of Electrical Engineering and Information Technology: Automatic Control, Electric Power Systems, Image and Speech Processing, Integrated Circuits, Communications and Healthcare Telematics, Fundamental Electrical Engineering and Electromagnetic Compability, Micro and Sensor Systems.

University of Applied Sciences Bremen:

Master's Degree Course in Electronics Engineering

www.msc-ee.hs-bremen.de

Programme Duration

3 semesters

Deadline 15th April

Description of Content

Master's degree course in Electronics Engineering with four programmes:

- Microsystems Engineering

- Laser Systems Engineering

- Metrology

- Communication Systems Engineering


Kassel University

Master of Electrical Communication Engineering

http://www.ece.uni-kassel.de.

Duration : 3 semester

Tuition fee : 300 euros per term

Deadline May1st

course content

The Electrical Communication Engineering programme is designed for students with a Bachelor's degree in communications or a related area. Prospective ECE students can choose the focus of their studies from modules covering different aspects of the Open Systems Interconnection (OSI) layer model for communication systems including Digital Communications, Electromagnetics, Microwaves, Mobile Internet, Optoelectronics, Software and Hardware Components for Communication Systems

Students are free to enrol in modules according to their interests. Courses can be chosen from a specific topic in order to specialise in it or combined from different topics to get an overview over different aspects in communication systems

Ilmenau University of Technology

Master of Science in Communications and Signal Processing

http://www.tu-ilmenau.de/fakei/index.php?id=7604?&L=1

Duration :4 semester

Tuition fee :150 euros per term

Deadline May 15th

Course Content

First Semester:

Advanced Digital Signal Processing

Information Theory and Source Coding

Microwave Engineering

Communication Networks

Communications Engineering

Second Semester:

Advanced Networking

Multimedia Standards

Mobile Communications

Antenna Engineering

Research Project

Third Semester:

UMTS Networks

Digital Audio Coding

Network Security

Measurements in Communications

Adaptive and Array Signal Processing

Advanced Research Project

Fourth Semester:

Master's thesis

Non-technical Elective Courses (4 CPs during semesters 1-3):

Media, Communication and Economy

Organisational Communication and Public Relations

Psychology of Technology

Media, Communication and Technology

International & Intercultural Communication

Media, Communication and Politics


















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Top Ranked Universities

1. University of Siegen
International Graduate Studies in Mechatronics

2. Fachhochschule Ravensburg-Weingarten
Mechatronics

3. Furtwangen FH
Microsystems engineering

4. Universitat Freiburg
MSc in Microsystems Engineering

50 % admission chances

1. South Westphalia University of Applied Sciences:
Systems Engineering & Engineering Management

2. Kassel University
Master of Electrical Communication Engineering


3. Fachhochschule Darmstadt
M/s in Electrical Engineering

4. University of Applied Sciences Bremen:
Master's Degree Course in Electronics Engineering


100 % admission Chances

1. Deggendorf FH
Master of Science in Electrical Engineering

2. Fachhochschule Rosenheim
Master of Science in Electrical Engineering

3, University of Magdeburg
Electrical Engineering and Information Technology


4. Ilmenau University of Technology
Master of Science in Communications and Signal Processing
( This University has a interview )