Python
Workflow scripting and robotics support tooling
KEBA Group profile
KEBA Group industrial robotics experience
This page brings together the full KEBA-related profile: working student responsibilities, the parallel master's thesis in industrial robotics, technical training, project presentations, and exhibition participation that together show an industrially grounded robotics direction.
Software and tools used
Core robotics software, simulation tools, and engineering platforms used across the KEBA working student role and the parallel thesis workflow.
ROS 1
Robot integration and legacy workflow understanding
ROS 2
Modern robotics communication and workflow architecture
Gazebo
Robot simulation and environment testing
RViz
Robot visualization and debugging workflow
drag&bot
Robot programming, simulation checks, and workflow validation
Sensor integration
Sensor integration and I/O understanding
WebSockets
Realtime communication for web-based tooling
Blender
3D visualization and supporting geometry preparation
SOLIDWORKS
Mechanical design context and engineering support
KeMotion
KEBA robot controller environment and industrial execution context
KEBA controller programming
Controller-side programming and industrial execution logic
KEBA experience overview
A clearer view of the working student role and the parallel thesis path
This page now groups the KEBA story into a readable flow: overall context first, then responsibilities, then thesis-linked robotics work, and finally the industrial exposure around it.
KEBA overview
If you are hiring for robotics or automation, this page is designed to work as one KEBA-focused review page. It combines the working student role, the parallel thesis, KEBA and drag&bot training, technical presentations, and KEBA exhibition participation in one place.
Working student role overview
The working student role gives direct exposure to industrial engineering routines, robot-related workflows, and the practical decision-making needed when systems move closer to real deployment in a KEBA automation environment.
Parallel thesis at KEBA Group
Alongside the working student role, the master's thesis focused on a 6-axis autonomous robot workflow with planning, collision-aware execution, machine interaction, and deployment constraints. This strengthens the KEBA profile because it connects industrial context to deeper robotics implementation work.
Why it matters in this portfolio
This is the clearest industrial signal in the portfolio because it combines day-to-day engineering exposure with thesis-depth robotics work, training, communication, and exhibition participation around the same KEBA context.
Role and growth
What the working student experience added beyond coursework
Working student responsibilities
- Supporting robotics and automation tasks in a live engineering context.
- Working with implementation details instead of only conceptual models.
- Contributing in an environment where reliability and execution quality matter.
What this experience strengthened
- Industrial engineering judgment.
- Deployment-oriented thinking.
- Understanding of robot programming, motion planning, and automation context.
- Confidence in communicating technical work in an international engineering environment.
The value of this role is that it sits close to real engineering routines, so the portfolio signal is not only academic robotics work but industrial judgment and communication around deployment-facing systems.
Thesis-linked robotics work
The deeper robotics track that ran in parallel with the role
Thesis work areas
- Robot programming for machine interaction and workflow execution.
- Motion planning for constrained industrial operation.
- Collision-aware logic, re-grip handling, and execution reliability.
- Alignment between simulation output and real-cell limits.
Joint path planner developed during the thesis track
As part of the KEBA and drag&bot thesis workflow, I designed and developed a lightweight web-based joint path planner to support faster testing of robot programs in simulation.
- Accepted start and goal joint angles and generated interpolated waypoints automatically.
- Visualized the planned joint progression for quick workflow checks.
- Exported CSV files for downstream validation in drag&bot simulation workflows.
- Kept the tool modular so more advanced planners such as RRT-Connect and collision checking could be added later.
Thesis detail
For the thesis-specific breakdown of the 6-axis autonomous robot workflow, machine-operation logic, and planning-to-deployment work, open the dedicated thesis page.
Industrial exposure
Training, presentations, and public-facing KEBA participation
Training and communication
- KEBA robotic HMI and controller training for robotic HMI interaction and controller understanding.
- Robotics safety regulation and real robot workshop training with the KEBA and drag&bot team.
- Presented robotics-related project work to international team members in Stuttgart.
Events and exhibition participation
- SPS Nuremberg 2025: participated as part of the KEBA booth presence, Hall 7, Booth 470.
- embedded world 2026, Nuremberg: attended as a visitor for broader industrial and embedded systems exposure.
- LogiMAT Stuttgart 2026: participated as part of the KEBA booth presence, Hall 5, Booth 5D71.
KEBA-related highlights
- Working student exposure in a live KEBA automation and robotics environment.
- Parallel industrial robotics thesis tied directly to planning, execution, and deployment thinking.
- Web-based joint path planner developed to streamline robot-program testing in drag&bot simulations.
- Project presentations, KEBA training, and exhibition participation inside the same industrial context.
Get in touch
Use the links below to contact me, review where I fit best, explore my work, or request my CV through the website form.