About Me

I am an aerospace engineer with a strong academic and technical background in propulsion and performance modelling. My work is centred around understanding how fundamental engineering principles translate into practical system design, particularly in the context of UAVs and in-space propulsion systems.

I have a particular interest in how propulsion systems influence overall vehicle performance, especially when operating under constraints such as limited power, mass, and energy availability. This has led me to explore concepts that emphasise efficiency, feasibility, and system-level integration rather than isolated component design.

My approach is analytical and detail-oriented, with a focus on evaluating trade-offs between performance, complexity, and practicality. I am especially interested in developing solutions that are not only theoretically sound but also aligned with real-world engineering constraints.

I continue to build my knowledge through independent study and concept-driven exploration, with the aim of contributing meaningfully to aerospace engineering challenges in propulsion, UAV systems, and performance-driven design.

I am particularly interested in roles involving propulsion analysis, UAV systems, and performance-driven design.

My Mission

To develop efficient and practical aerospace systems through analytical engineering and propulsion-focused design.

My work is centred on understanding the trade-offs between performance, energy efficiency, and system complexity, with the aim of contributing to reliable and scalable aerospace solutions.

Focused on UAV systems and propulsion-driven performance modelling, I apply analytical and computational approaches to evaluate flight behaviour, system efficiency, and design feasibility.

My work emphasises structured problem-solving, data-driven insights, and system-level integration.

Technical Focus