Details

Dipl.-Ing. Georg Mansky-Kummert

Academic Staff

georg.mansky-kummert@fh-campuswien.ac.at
+43 1 606 68 77-2145
+43 1 606 68 77-2139

Room: C.1.08b
Favoritenstraße 226
1100 Wien


Lectures 2022/23

Engineering

Web Technologies ILV
Computer Science and Digital Communications more

Web Technologies ILV

Lector: René Goldschmid, MSc, Dipl.-Ing. Georg Mansky-Kummert, Bernhard Taufner, BSc, MSc

3 SWS   6 ECTS

Lecture contents

Web Technologies are the technologies used for a static or dynamic presentation of content on the Web. The ILV addresses both infrastructural technologies (web servers, cloud services), content processing technologies and the technologies required for their implementation. The course covers in particular the following contents:
- Historical development of the Internet

- Technology and background

- HTTP protocol

- Rest & MVC

- Creating static websites using HTML5 and CSS3

- Fundamentals in JavaScript, PHP and Frameworks

- Responsive Web Design

- Javascript Libraries

- Security aspects of web technologies

Assessment methods

Module exam

Teaching methods

(ONLY IN GERMAN - 28.02.2018)
Präsentation von Themen durch die Studierenden, praktische Übungen, Vortrag

Language

English

Software Engineering ILV
Computer Science and Digital Communications more

Software Engineering ILV

Lector: Mag. Dipl.-Ing. Peter Gerstbach, René Goldschmid, MSc, Dipl.-Ing. Georg Mansky-Kummert, FH-Prof. DI Dr. Igor Miladinovic

4 SWS   7 ECTS

Lecture contents

This lecture aims to explain the technical, organizational and economic aspects of software engineering. Organizational possibilities for structuring software development in the form of process models, such as waterfall model, spiral model and agile models are presented. The technical aspects of software engineering focus on the creation of object-oriented systems and their modeling.
The course covers in particular the following contents:
- Software Engineering Activities,
- Requirements Engineering,
- use cases,
- high-level design
- UML activity diagrams,
- UML class diagrams,
- UML sequence diagrams,
- Software testing,
- software process models and
- Agile software development.

Assessment methods

Final exam

Individual and group works

Teaching methods

Blended learning, guest lectures, experiental learning, coaching

Language

German

Bachelor Thesis 1 SE
Computer Science and Digital Communications more

Bachelor Thesis 1 SE

Lector: DI Dr. techn. Mugdim Bublin, Tobias Buchberger, BSc MSc, FH-Prof. DI Thomas Fischer, Leon Freudenthaler, BSc MSc, René Goldschmid, MSc, FH-Prof. FH-Hon.Prof. Priv.-Doz. Mag. DI. DI. Dr.techn. Karl Michael Göschka, FH-Prof. Dipl.-Ing. Heimo Hirner, FH-Prof. Dipl.-Ing. Manuel Koschuch, Bakk. tech., Ines Kramer, BSc MSc, Dipl.-Ing. Georg Mansky-Kummert, FH-Prof. DI Dr. Igor Miladinovic, Silvia Schmidt, BSc MSc, Bernhard Taufner, BSc, MSc

1 SWS   4 ECTS

Lecture contents

- Independent work on a topic from the area of Computer Science, primarily based on the technical topics of the elective modules in the 4th and 5th semesters at a scientific level under the guidance of a supervisor.
- Elaboration of the bachelor thesis 1

Assessment methods

Final exam
Approbation of bachelor thesis

Teaching methods

Implementation of a project and elaboration as a bachelor thesis with coaching. Students present the current development of their bachelor thesis 1 at regular intervals and put it up for discussion.

Language

German

Elective Project 2 UE
Computer Science and Digital Communications more

Elective Project 2 UE

Lector: DI Dr. techn. Mugdim Bublin, FH-Prof. DI Thomas Fischer, Leon Freudenthaler, BSc MSc, FH-Prof. FH-Hon.Prof. Priv.-Doz. Mag. DI. DI. Dr.techn. Karl Michael Göschka, Ines Kramer, BSc MSc, Dipl.-Ing. Georg Mansky-Kummert, FH-Prof. DI Dr. Igor Miladinovic, Silvia Schmidt, BSc MSc, Bernhard Taufner, BSc, MSc

2 SWS   5 ECTS

Lecture contents

Students apply the skills acquired to complete a project in a coordinated and structured manner.
project in a coordinated and structured manner. In doing so, they independently define a concrete sub-goal in the project. A well-founded theoretical approach is thus combined with practical application. Collaboration on an industrial R&D project or on current problems within the framework of the R&D activities of the UAS is possible.

Assessment methods

Final exam
Practical project in small groups.

Teaching methods

Group work, practical project implementation accompanied with exercises and coaching.

Language

German

Bachelor Thesis 2 SE
Computer Science and Digital Communications more

Bachelor Thesis 2 SE

Lector: DI Dr. techn. Mugdim Bublin, Tobias Buchberger, BSc MSc, FH-Prof. DI Thomas Fischer, Leon Freudenthaler, BSc MSc, René Goldschmid, MSc, FH-Prof. FH-Hon.Prof. Priv.-Doz. Mag. DI. DI. Dr.techn. Karl Michael Göschka, FH-Prof. Dipl.-Ing. Heimo Hirner, FH-Prof. Dipl.-Ing. Manuel Koschuch, Bakk. tech., Ines Kramer, BSc MSc, Dipl.-Ing. Georg Mansky-Kummert, FH-Prof. DI Dr. Igor Miladinovic, Silvia Schmidt, BSc MSc, Bernhard Taufner, BSc, MSc

1 SWS   6 ECTS

Lecture contents

- Independent work on a relevant subject based on the technical topics of the elective modules and possibly the Bachelor thesis 1 at a scientific level under the guidance of a supervisor.
- Elaboration of the bachelor thesis 2

Assessment methods

Final exam
Approval of the bachelor thesis

Teaching methods

Carrying out a practical work and elaboration as a bachelor thesis with coaching. Students present the current development of their bachelor thesis 2 at regular intervals and put it up for discussion.

Language

German

Web Technologies ILV
Computer Science and Digital Communications more

Web Technologies ILV

Lector: René Goldschmid, MSc, Dipl.-Ing. Georg Mansky-Kummert, Bernhard Taufner, BSc, MSc

3 SWS   6 ECTS

Lecture contents

(ONLY IN GERMAN - 28.02.2018)
Web Technologies are the technologies used for a static or dynamic presentation of content on the Web. The ILV addresses both infrastructural technologies (web servers, cloud services), content processing technologies and the technologies required for their implementation. The course covers in particular the following contents:
- Historical development of the Internet

- Technology and background

- HTTP protocol

- Rest & MVC

- Creating static websites using HTML5 and CSS3

- Fundamentals in JavaScript, PHP and Frameworks

- Responsive Web Design

- Javascript Libraries

- Security aspects of web technologies

Assessment methods

Module exam

Teaching methods

(ONLY IN GERMAN - 28.02.2018)
Präsentation von Themen durch die Studierenden, praktische Übungen, Vortrag

Language

English

Software Engineering ILV
Computer Science and Digital Communications more

Software Engineering ILV

Lector: Mag. Dipl.-Ing. Peter Gerstbach, René Goldschmid, MSc, Dipl.-Ing. Georg Mansky-Kummert, FH-Prof.in Mag.a Dr.in Sigrid Schefer-Wenzl, MSc BSc

4 SWS   7 ECTS

Lecture contents

This lecture aims to explain the technical, organizational and economic aspects of software engineering. Organizational possibilities for structuring software development in the form of process models, such as waterfall model, spiral model and agile models are presented. The technical aspects of software engineering focus on the creation of object-oriented systems and their modeling.
The course covers in particular the following contents:
- Software Engineering Activities,
- Requirements Engineering,
- use cases,
- high-level design
- UML activity diagrams,
- UML class diagrams,
- UML sequence diagrams,
- Software testing,
- software process models and
- Agile software development.

Assessment methods

Final exam
Individual and group works

Teaching methods

Blended learning, guest lectures, experiental learning, coaching

Language

German

Master Thesis Project UE
Software Design and Engineering more

Master Thesis Project UE

Lector: DI Dr. techn. Mugdim Bublin, Leon Freudenthaler, BSc MSc, FH-Prof. FH-Hon.Prof. Priv.-Doz. Mag. DI. DI. Dr.techn. Karl Michael Göschka, Dipl.-Ing. Georg Mansky-Kummert, FH-Prof. DI Dr. Igor Miladinovic, Mag. Dipl.-Ing. Dr.techn. Wolfgang Radinger-Peer, MBA, FH-Prof.in Mag.a Dr.in Sigrid Schefer-Wenzl, MSc BSc, Bernhard Taufner, BSc, MSc

2 SWS   6 ECTS

Lecture contents

Students work individually or in small groups on projects related to software design and software engineering technologies and applications in the context of university R&D activities or within the scope of their individual professional activities. These projects are the practice-relevant basis for the master theses.

Assessment methods

Continuous assessment
Project progress, proof of function, project presentation

Teaching methods

-

Language

German-English

Master Thesis Seminar SE
Software Design and Engineering more

Master Thesis Seminar SE

Lector: DI Dr. techn. Mugdim Bublin, Leon Freudenthaler, BSc MSc, FH-Prof. FH-Hon.Prof. Priv.-Doz. Mag. DI. DI. Dr.techn. Karl Michael Göschka, Dipl.-Ing. Georg Mansky-Kummert, FH-Prof. DI Dr. Igor Miladinovic, Mag. Dipl.-Ing. Dr.techn. Wolfgang Radinger-Peer, MBA, FH-Prof.in Mag.a Dr.in Sigrid Schefer-Wenzl, MSc BSc, Bernhard Taufner, BSc, MSc

2 SWS   4 ECTS

Lecture contents

- Deepening the basic principles of scientific work
- Reading, understanding and interpreting relevant scientific texts
- Literature research
- Formal methods of scientific work
- Students present the current development of their Master's thesis at regular intervals and put it up for discussion in the plenum

Assessment methods

Continuous assessment
Presentations, home exercises

Teaching methods

Lecture, Case Studies

Language

German

Programming and Algorithms for Language Technologi…
Multilingual Technologies more

Programming and Algorithms for Language Technologies VO

Lector: Dipl.-Ing. Georg Mansky-Kummert, Dipl.-Ing. Branislav Miskovic

1 SWS   2 ECTS

Lecture contents

This course teaches programming concepts using the Python programming language. Knowledge of basic concepts and elemental programming experience are prerequisites. Fundamentals are repeated at the beginning of the course.
Techniques like Debugging and Tools like Git for Version control are discussed.
In addition, the following topics are discussed:
* Data structures
* Regular expressoins and search algorithms (A* algorithm, Beam search, ...)
* Usage of Application Programming Interfaces (APIs), JSON, XML
* Basics of Information Retrieval

Assessment methods

Continuous assessment
Partial performances in the form of individual work, group work and presentations.
Oral Final Exam.

Teaching methods

Lecture/Talk.

Language

English

Programming and Algorithms for Language Technologi…
Multilingual Technologies more

Programming and Algorithms for Language Technologies UE

Lector: Dipl.-Ing. Georg Mansky-Kummert, Dipl.-Ing. Branislav Miskovic

2 SWS   4 ECTS

Lecture contents

This course teaches basic concepts of object-oriented programming using the Python programming language. Concepts of programming languages such as control structures, elementary data types, data structures, classes, objects and functions are taught. Furthermore, the design of programs, their analysis and techniques for debugging, tracing and testing are taught.
The course covers the following topics in particular:
- Basics of programming
- Variables and data types
- Operators
- Control structures
- Error handling
- Basics of object orientation
- Sorting algorithms
- Search algorithms

Assessment methods

Continuous assessment
Partial performances in the form of group work and presentations.

Teaching methods

Small group work, practical exercises, presentation of results.

Language

English