Chapter 4. Master Courses of Kai Mueller
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Chapter 4. Master Courses of Kai Mueller

[modules for master programs]

4.1. Medical Systems [ES-MED / ESD2]

ECG history © Texas Instruments

Table 4.1. Organization Medical Systems

NEWS

Start of course is Tuesday, October 27, 2020.

This is a "hybrid" course (over the web and labs in Univ. Bremerhaven).

Please register on "elli".

Labs will start on Thursday, Oct. 29.

Mandatory/optional course for ESD, optional course for other technical masters

Study Program

Master Embedded Systems Design [ESD2]

Course Language

English

Mandatory Lab Reports

1. FFT algorithm programing (Java) with graphical output (jChard2D).
    The report must include a description of algorthm implementation details.
    The FFT should work with any N=2^n samples (powers of two).
    Deadline for submission: December 17, 2020.
    Missing this deadline will result in fail grading for the lab part ES-MEDL.
    
                        

2. CORDIC sine/cosine FPGA (lab #15a)
    

Exam (1.)

t.b.s. (written exam)

Exam (2.)

t.b.s. (wrirtten exam)

Credits

5

Module Type

class: 2 hours/week

lab: 2 hours/week

Lecturer

Prof. Dr. Kai Mueller

Start of Course

Tuesday, October 27, 2020, 10:30h, (online)

End of Course

Thursday, January 23, 2020

Class/Lab Dates

Organized on "elli".

Documents (fairly complete)

[course documentation]

[ANN doc (© material)]

YES, YOU WILL NEED THEM ALL FOR PASSING THE LAB!!!

Exams Hot Offer

[ES-MED topics]

==>> [ES-MED Sample Test]

==>> [ES-MED Sample Test Solutions]


4.1.1. Course contents

  • Physiology Basics for Medical Applications

  • Medical Devices

  • Biosignal Acquisition and Acquisition Electronics

  • Digital Signal Processing

  • Networking Embedded Devices

  • Consumer Devices, Diagnostic and Therapy, Medical Imaging, Instruments

  • GUI

4.1.2. Complimentary Documentation

Ashenden, Peter J.: The Designer's Guide to VHDL, 3rd. Ed.
Morgan Kaufmann, 2008

Al-Hashimi.Bashir M.: System-on-Chip: Next Generation Electronics.
Institution of Electrical Engineers, 2006

Below, Klaus and Dietrich, Karin: Medizinische Gerätetechnik (in German).
Europa-Lehrmittel, 2006

Jennings, D., Fint, A., Turton, BCH. and Nokes, LDM: Introduction to Medical Electronics Applications.
Edward Arnold PLC, 1995

Lipsett, Rger, Schaefer, Carls and Ussery Cary: VHDL Hardware Description and Design.
Kluwer Academic 1990

Lyons, Richard G.: Understanding Digital Signal Processing.
Prentice Hall, 2011

Predroni, Volnei A.: Circuit Design and Simulation with VHDL, 2nd. Ed.
MIT Press, 2010

Prutchi, David and Norris, Michael: Design and Development of Medical Electronic Instrumentation.
John Wiley&Sons, 2005

Reis, Ricardo, Lubaszewski, Marcelo and Jess, Jochen: Design of Systems on a Chip: Design and Test.
Springer, 2010

Reichardt, J. und Schwarz, B.: VHDL-Synthese.
Oldenbourg, 2001

Sass, Ron and Schmidt, Andrew G.: Embedded Systems Design with Platform FPGAs: Principles and Practices.
Elsevier Inc. 2010 

Wakerly, John F. : Digital Design, Principles & Practices.
Prentice Hall, 2001

K. Urbanski u. R. Woitowitz: Digitaltechnik. 
Springer, 2000

J. Wakerly: Digital Design: Principles and Practices. 
Prentice-Hall, 1999

R. Lipsett, C. Schaefer and C. Ussery: VHDL: Hardware Description and Design.
Kluwer Academic Publishers, 1990

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Chapter 3. Graduate Preparation Courses of Kai Mueller Home 4.2. Embedded Systems Project [ES-PRO / ESD2] (mainly labs)