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

2021

455.
Juhnke, Katharina
Improving the Quality of Automotive Test Case Specifications
Ulm University, Germany
2021
DOI:10.18725/OPARU-35558
454.
Witte, Thomas; Tichy, Matthias
Inferred Interactive Controls Through Provenance Tracking of ROS Message Data
2021 IEEE/ACM 3rd International Workshop on Robotics Software Engineering (RoSE)
2021
453.
Juhnke, Katharina; Nikic, Alexander; Tichy, Matthias
Clustering Natural Language Test Case Instructions as Input for Deriving Automotive Testing DSLs
Journal of Object Technology (JOT), 20 (3), 5 :1-14
2021
DOI:10.5381/jot.2021.20.3.a5
452.
Vogt, Andrea; Witte, Thomas; Tichy, Matthias; Seufert, Tina
Supportive Elements for Coherence Formation Increase Code Comprehension
EARLI 2021
European Association for Research on Learning and Instruction (EARLI)
2021
451.
Groner, Raffaela; Juhnke, Katharina; Götz, Stefan; Tichy, Matthias; Becker, Steffen; Vijayshree, Vijayshree; Frank, Sebastian
A Survey on the Relevance of the Performance of Model Transformations
Journal of Object Technology
2021
DOI:10.5381/jot.2021.20.2.a5