Seminar Software Methods & Technologies for Virtual Aircraft

Vortex flow

Description

In this seminar, students will analyze and discuss scientific publications on a topic in the field of aerospace engineering. Students will learn to independently elaborate the content of the publications and comprehensively present the result of their literature study.

Teacher

Prof. Dr. Sabine Roller

Format

Max. number of participants: 12

2 SWS seminar, self-study
2.5 credits

Examination

Oral presentation (30min consisting of 20mins talk + 10mins Q&A)

Grade Scale

We'll use the guideline from here.

Creditability

CMS-SEM (application area F), INF-D-940, INF-VERT1. INF-VERT2, INF-VERT3, INF-PM-FOR

Schedule/Registration

  • Registration via OPAL:
    • Registration begins on April 1, 2026, at 12 noon.
    • Registration ends on April 13, 2026, at 12 noon.
  • Registration via Selma (if mandatory)
  • Kick-off meeting: Monday, April 13, 2026, 1 p.m., in the APB building, room 2101
  • Independent work on the topic during the semester (possibility of individual meetings with supervisor)
  • Final presentations: July 8, 2026, in the DLR building, Nöthnitzer Straße 46b, room 310 (preliminary)

List of Papers

Lead Author

Title

Robin J.Hogan

Fast Reverse-Mode Automatic Differentiation using Expression Templates in C++

Klaus Iglberger

Expression Templates Revisited: A Performance Analysis of the Current ET Methodology

Hamidreza Samadi

Hybrid Machine Learning Framework For Predicting Geometric Deviations From 3D Surface Metrology

Matthias Meinke

Scale-resolved aeroacoustic simulations of propulsion systems

Christophe Schram

Measurement, Modelling and Simulations Techniques for Novel Aircraft Architectures

Zhe Yang

Numerical Analysis of Propeller-Airfoil Interaction in a Distributed Propulsion System Using a Hybrid LES and FW-H Approach

Fabian Hübenthal

Surrogate Modeling for Active Drag Reduction in Turbulent Boundary Layer Flows Using Multitask Gaussian Process Regression

Sebastian Ares de Parga Regalado

Parallel Reduced Order Modeling for Digital Twins using High-Performance Computing Workflows

Scott Atchley

Predicting the Future of Supercomputing

Marcel Blind

Wall-modeled large eddy simulation of a tandem wing configuration in transonic flow

Akash Dhruv

Leveraging Large Language Models for Code Translation and Software Development in Scientific Computing

Samuel D. Schwartz

A Survey of Open Source Software Repositories in the US Department of Energy’s National Laboratories

Akash Dhruv

Framework and Methodology for Verification of a Complex Scientific Simulation Software, Flash-X

Surya Kaundinya Oruganti

Numerical investigation of turbulent mixing characteristics of underexpanded jets in supersonic crossflow with different injectants

Chaoyang Lyu

Fast and versatile fluid-solid coupling for turbulent flow simulation

Paula Natascha Ruß

Supporting Virtual Aircraft Certification via Provenance

Raghavendra Dheeraj Peddinti

Raghavendra Dheeraj Peddinti

Paul Over

Quantum algorithm for the advection-diffusion equation by direct block encoding of the time-marching operator

Ral Bielawski

Highly-scalable GPU-accelerated compressible reacting flow solver for modeling high-speed flows

Shujin Lin

A new interpolation subdivision scheme for triangle/quad mesh

Marius Franze

Comparison of models for aerothermal load prediction using coupled trajectory simulations of a high lift reentry vehicle

Tobias Ecker

Combustion Modeling in Solid Rocket Motor Plumes

Contact Seminar SMT

Prof. Sabine Roller

Director
German Aerospace Center (DLR)
Institute of Software Methods for Product Virtualization