Institute of Software Engineering and Programming Languages

Research

Our research covers many aspects of software engineering and programming languages. In particular, we focus on domain-specific languages, software configuration, and constraint programming. We employ formalized theories, develop open-source tools, and apply empirical research methods.

Overview of our research topics

Teaching

The institute represents the areas software engineering and programming languages in the bachelor and master programs of computer science and related fields. We offer the following mandatory courses in the Bachelor's program:

  • Interactive Systems Programming
  • Software Engineering
  • Software Project

Furthermore, we are responsible for the bachelor and master program Software Engineering.

Overview of the courses in the bachelor and master programs

 

Contact & Directions

Institute of Software Engineering and Programming Languages

Ulm University
James-Franck-Ring
D-89069 Ulm
Building O27, Level 4
Phone: +49 (0)731 / 50 - 24161

Directions

 

Newest publications

2020

570.
Runge, Tobias; Thüm, Thomas; Cleophas, Loek; Schaefer, Ina; Watson, Bruce W.
Comparing Correctness-by-Construction With Post-Hoc Verification - A Qualitative User Study
Proc. Int'l Workshop on Refinement (REFINE), Page 388-405
Publisher: Springer, Cham, Switzerland
August 2020
DOI:10.1007/978-3-030-54997-8_25
File:pdfhttps://github.com/SoftVarE-Group/Papers/raw/main/2020/2020-REFINE-Runge.pdf
569.
Götz, Stefan; Tichy, Matthias
Investigating the Origins of Complexity and Expressiveness in ATL Transformations
Journal of Object Technology, 19 :12:1-21
July 2020
DOI:10.5381/jot.2020.19.2.a12
File:pdfhttp://www.jot.fm/issues/issue_2020_02/article12.pdf
568.
Götz, Stefan; Tichy, Matthias; Groner, Raffaela
Claimed advantages and disadvantages of (dedicated) model transformation languages: a systematic literature review
Software and Systems Modeling (SoSyM)
July 2020
Publisher: Springer Nature
DOI:10.1007/s10270-020-00815-4
File:https://rdcu.be/b5A6X
567.
Schultheiß, Alexander; Boll, Alexander; Kehrer, Timo
Comparison of Graph-based Model Transformation Rules
J. Object Technology (JOT) :3:1-21
July 2020
DOI:10.5381/JOT.2020.19.2.A3
566.
Bertel, Tobias; Mühlhausen, Moritz; Kappel, Moritz; Bittner, Paul Maximilian; Richardt, Christian; Magnor, Marcus
Depth Augmented Omnidirectional Stereo for 6-DoF VR Photography
Proc. IEEE Virtual Reality Workshop (VR), Page 660-661
Publisher: IEEE, Piscataway, NJ, USA
May 2020
DOI:10.1109/VRW50115.2020.00181
ISBN:978-1-7281-6532-5
File:https://graphics.tu-bs.de/publications/bertel2020depth