Personendetail

Eveline Prochaska, BSc MSc

Academic Staff
Stadt Wien Endowed Professorship for Healthcare Engineering


T: +43 1 606 68 77-2410
F: +43 1 606 68 77-2409

Room: B.3.01
Favoritenstraße 226
1100 Wien

Personal Webspace


Lectures 2021/22

Engineering

> Digital Systems ILV
Applied Electronics more

Digital Systems ILV

Lector: FH-Prof. DI Gerhard Engelmann, Eveline Prochaska, BSc MSc, Hubert Wimmer, MSc

2.5SWS
5ECTS

Lecture contents

Part I:
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Fundamentals of computer networks
OSI reference model
Error detection and correction in data transmission

Part II:
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Logic families
Digital circuit techniques
Memory technologies
Interface circuits

Part III:
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Analog-to-Digital/Digital-to-Analog conversion

Assessment methods

Written exam at the end of the course

Teaching methods

ILV

Language

German

> Advanced C-Programming UE
Applied Electronics more

Advanced C-Programming UE

Lector: FH-Prof. Dipl.-Ing. Herbert Paulis, Eveline Prochaska, BSc MSc

1.5SWS
3ECTS

Lecture contents

Knowledge of the concepts of object oriented programming.
Design of class architectures and the techniques of object oriented software development which are critical for the state-of-the-art in software design.
Mind set and approach of object oriented programming, central terms like data hiding and inheritance, implementing the methods for given problems and in practical examples.

Assessment methods

Continuous assessments throughout the course by means of short exams and presentation of practical examples programmed by the student

Teaching methods

practical exercises with remote teaching and presence units

Language

German

> Programming in C ILV
Applied Electronics more

Programming in C ILV

Lector: FH-Prof. Dipl.-Ing. Herbert Paulis, Eveline Prochaska, BSc MSc

3.5SWS
6ECTS

Lecture contents

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Assessment methods

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Teaching methods

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> Programming of Microprocessors UE
Applied Electronics more

Programming of Microprocessors UE

Lector: FH-Prof. Dipl.-Ing. Herbert Paulis, Eveline Prochaska, BSc MSc

2SWS
3ECTS

Lecture contents

Solve exercises with given Hardware (STM32 - ARM Cortex M4) by programming the controller in C. Fundamentals of microcontrollers, components of an actual microcontroller
(timer, NVIC, ADC, UART,..) and LCD display.

Assessment methods

Continuous assessments throughout the course
At least 60% are required for passing the exam.

Teaching methods

Hands on examples

Language

German

> Applied Microcontroller Programming UE
Applied Electronics more

Applied Microcontroller Programming UE

Lector: FH-Prof. Dipl.-Ing. Herbert Paulis, Eveline Prochaska, BSc MSc, Silvia Schmidt, BSc MSc

2.5SWS
5ECTS

Lecture contents

Applied µC programming:
read and interpret sensor data, implementaion and application of two-wire bus systems (I²C, SPI). Special tricks and techniques of µC programming are introduced and discussed.

Assessment methods

permanent assessment

Teaching methods

practical exercise

Language

German

> Design of Elelectronic Apparatuses I ILV
Applied Electronics more

Design of Elelectronic Apparatuses I ILV

Lector: FH-Prof. DI Christian Halter, FH-Prof. DI Rudolf Oberpertinger, MBA, FH-Prof. Dipl.-Ing. Herbert Paulis, Eveline Prochaska, BSc MSc, DI Gerald Renner, FH-Prof. Dipl.-Ing. Markus Wellenzohn, Hubert Wimmer, MSc

2.5SWS
5ECTS

Lecture contents

Introduction to the design process of electronic circuits / assemblies / products.
Getting to know the procedure for creating / fixing and maintaining functional or device requirements.
Types and context of documentation of development results.
Typical divisions and functions of individual departments in a research and development company.
Peripheral departments and their influence on development (e.g. service, life cycle support, etc.).

Assessment methods

Immanent examination nature

Teaching methods

ILV

Language

German

> Design of Elelectronic Apparatuses II UE
Applied Electronics more

Design of Elelectronic Apparatuses II UE

Lector: FH-Prof. DI Christian Halter, FH-Prof. DI Rudolf Oberpertinger, MBA, FH-Prof. Dipl.-Ing. Herbert Paulis, Eveline Prochaska, BSc MSc, DI Gerald Renner, FH-Prof. Dipl.-Ing. Markus Wellenzohn, Hubert Wimmer, MSc

1.5SWS
5ECTS

Lecture contents

- Design of an electronic device based on the previously acquired procedures, including simulation of the essential functions using suitable simulation software.
- The development of the device concept takes place in small groups, with own division of tasks under the guidance of the lecturer.
- Consideration of the requirements regarding interference immunity (electromagnetic compatibility (EMC) and electrostatic charging and discharging (ESD)) in the device design.
Interaction of the different competences, skills and tasks in a development team or in individual work on the basis of a concrete task.

Assessment methods

Immanent examination nature

Teaching methods

UE

Language

German

> Bachelor Thesis II SE
Applied Electronics more

Bachelor Thesis II SE

Lector: FH-Prof. Dipl.-Ing. Andreas Posch, Eveline Prochaska, BSc MSc

1SWS
7ECTS

Lecture contents

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Assessment methods

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Teaching methods

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Language

German

> Structure of IT Networks ILV
Clinical Engineering more

Structure of IT Networks ILV

Lector: Eveline Prochaska, BSc MSc

2SWS
4ECTS

Lecture contents

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Assessment methods

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Teaching methods

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Language

German

> Security in IT Networks ILV
Clinical Engineering more

Security in IT Networks ILV

Lector: Eveline Prochaska, BSc MSc

1SWS
2ECTS

Lecture contents

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Assessment methods

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Teaching methods

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Language

German

> Seminar Bachelor Thesis 2 SE
Clinical Engineering more

Seminar Bachelor Thesis 2 SE

Lector: FH-Prof. Dipl.-Ing. Herbert Paulis, Eveline Prochaska, BSc MSc

1SWS
9ECTS
> Electronic components and digital technology ILV
Health Assisting Engineering more

Electronic components and digital technology ILV

Lector: Eveline Prochaska, BSc MSc, DI Gerald Renner

2.5SWS
5ECTS

Lecture contents

Electronic components:
- Fundamentals (electric current, basic concepts, Ohm's law, circuits).
- Components (resistors, capacitive and inductive components)
- Semiconductors (basics and important components)
Digital technology:
- Number Systems
- Boolean algebra, applications of logical functions, building blocks, logical circuits with memory elements
- Switching units, control units, arithmetic units
Information representation in the computer

Assessment methods

Continuous assessment
Collaboration, ongoing exercises (also in distance learning) and final examination

Teaching methods

Lecture with exercises

Language

German

Publications

The publications of Eveline Prochaska written at FH Campus Wien can be found in our publication database, others in the personal web space.