Engineering projects & system-level design
In addition to focused decision-level analysis, we take on selected system-level projects where deep physics, integration, and iteration matter.
Project areas
These are selective engagements—typically longer-term and requiring close collaboration.
Aerospace & UAV engineering
Aerodynamics, propulsion integration, thermal management, and performance analysis for unconventional configurations and demanding mission profiles.
Multiphysics-driven design
Iterative design and optimization where coupled physical effects—thermal, fluid, structural—drive performance and constraints.
Complex environments & mission constraints
Systems operating in challenging conditions where analysis must account for realistic, non-ideal environments.
Engineering tooling & automation
Custom tools that scale expert workflows—automated analysis, model-based evaluation, and structured decision support.
What makes a good fit
These projects typically share several characteristics:
- →Physics complexity — the problem requires deep understanding of the underlying phenomena, not just tool operation.
- →Integration challenges — multiple disciplines or subsystems interact in ways that affect the design space.
- →Iteration requirements — the solution emerges through analysis-driven refinement, not a single calculation.
- →Decision stakes — the outcome meaningfully affects mission success, cost, or schedule.
Engagement model
System-level projects are scoped differently from focused feasibility work. They typically involve:
- • Initial technical review and scope definition
- • Phased milestones with clear deliverables
- • Regular technical discussions and iteration
- • Documentation suitable for internal or external review