Germany
Interdisciplinary Mechanical Engineer focused on product development, CAD design, and complex technical systems in the industrial and aerospace sectors. Experienced in simulation-driven development, requirements management, and cross-functional engineering collaboration. Background in aerospace systems and mechanical product development, with experience in CAD, CFD/FEM analysis, and technical system optimisation. Interested in interdisciplinary engineering challenges involving product development, system design, and innovative technical solutions.
Master Thesis topic: Development of an interdisciplinary, integrated product and process development framework for next-generation ATC workstations, enabling structured alignment of design, engineering, and manufacturing processes to improve efficiency and system coherence.
Led two 3-month engineering projects in product development and CFD simulation: Project 1: Designed an ergonomic repair module for next-generation ATC workstations, reducing maintenance time by 50% and significantly improving operational safety by enabling shorter maintenance windows. Project 2: Performed CFD-based thermal analysis of workstation housing systems and delivered key design optimisation recommendations, improving cooling efficiency by 30%.
I contributed to product planning and requirements engineering for next-generation air traffic control (ATC) software interfaces, translating operational and system-level requirements into UI specifications. I also designed and defined UI/UX system architecture concepts, including interaction models and interface framework structures, which now serve as a baseline for ongoing implementation and iterative development.
Conducted analysis and optimization of development and production processes, including detailed requirements analysis and technical documentation. Performed statistical evaluations to support the development of a new 3D printer concept and contributed to process validation. Supported additive manufacturing workflows through 3D print preparation and build optimization. Additionally contributed to early-stage concept development during ideation phases, translating technical requirements into feasible system concepts.
My bachelor’s thesis focused on the research and development of a scientifically grounded UI/UX design guideline for internal engineering software tools at Tesat-Spacecom. The work aimed to improve the usability and consistency of future software applications through structured design principles and evidence-based interface standards.
During my internship, I was responsible for the development and refinement of complex user and system interfaces, with a focus on optimizing human-computer interaction (HCI) for a Non-Recurring Engineering (NRE) software tool. This included analyzing existing interaction flows and improving usability, efficiency, and system operability within a technical engineering environment.