Student computer science (f/m/x) - Real-time Visualization of Clouds in CosmoScout VR Job Details

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Student computer science (f/m/x) - Real-time Visualization of Clouds in CosmoScout VR

Job Description

Req ID: 2634

Place of work: Braunschweig

Starting date: 09.08.2025

Career level: Student research project and final thesis

Type of employment: Part time, Full-time

Duration of contract: 3-6 Monate

Remuneration: Remuneration is in accordance with the Collective Agreement for the Public Sector - Federal Government (TVöD-Bund)

Enter the fascinating world of the German Aerospace Center (Deutsches Zentrum für Luft- und Raumfahrt e. V.; DLR) and help shape the future through research and innovation! We offer an exciting and inspiring working environment driven by the expertise and curiosity of our 11,000 employees from 100 nations and our unique infrastructure. Together, we develop sustainable technologies and thus contribute to finding solutions to global challenges. Would you like to join us in addressing this major future challenge? Then this is your place!

The DLR Institute of Software Technology sees software as a catalyst for research and innovation. The institute's staff, currently numbering around 200, make a significant contribution to advancements in the fields of aviation, space, energy, transportation, and security through the development of state-of-the-art software solutions and innovative research.

Our areas of competence include reliable and safety-critical software systems, artificial intelligence, high-performance computing and quantum computing, human-system interaction and visualisation, software and systems engineering as well as digital platforms and digital twins.

What to expect

The Visual Computing and Engineering department develops interactive visualization and modeling methods to collaboratively make digital twins and complex technical systems experientially accessible – from the early design phase to the analysis of large scientific datasets in immersive 3D environments.

The department develops a real-time solar system visualization called CosmoScout VR. The application is used for visualizing scientific data in the solar system for either retrospective data analysis or for mission planning. CosmoScout VR has a plugin for visualizing procedural clouds. While they look good and perform well on a local scale, global views are computationally very demanding and are displaying artifacts. Also, the procedurally generated clouds do currently not represent real weather data. The goal of this thesis is to enhance the performance of the cloud generation and / or (depending on thesis type) integrate real world weather data.

Your tasks

analysis of the existing cloud visualisation in CosmoScout VR to identify the current performance bottlenecks and artefacts in global views
investigation and implementation of optimisation strategies to improve the performance of procedural cloud generation, especially for global views
integration of real weather data into the cloud plugin to increase the scientific accuracy and realism of cloud rendering
development and application of algorithms to reduce artefacts in the cloud visualisations at different viewing levels
performance testing and validation of the improved cloud generation

Your profile

university studies in computer sciences or similar
experience in computer graphics with frameworks lile OpenGL, Vulkan, Direct3D, WebGPU or similar
good experience with typed programming languages, like C++, C# or Rust

We offer

DLR stands for diversity, appreciation and equality for all people. We promote independent work and the individual development of our employees both personally and professionally. To this end, we offer numerous training and development opportunities. Equal opportunities are of particular importance to us, which is why we want to increase the proportion of women in science and management in particular. Applicants with severe disabilities will be given preference if they are qualified.

We look forward to getting to know you!

If you have any questions about this position (Vacancy-ID 2634) please contact:

Andreas Gerndt
Tel.: +49 531 295 2782

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