Research

The electrification of transportation, aerospace, and industry demands electric machines and energy conversion systems that are more powerful, more efficient, and more sustainable than anything that exists today. Meeting this challenge requires rethinking the machine, the drive, and the control — together, from first principles.

Research
Research Themes

Integrated Electro-Mechanical Systems

Co-design and optimization of magnetics, power electronics, thermal systems, and mechanical loads.

Invent New Topologies

Developing unconventional electric machine and power converter topologies for higher performance and lower critical material dependence.

AI-Accelerated Design

Using physics-informed machine learning and optimization to accelerate discovery and improve system performance.

Build the Future

Leveraging advanced manufacturing and novel materials to realize next-generation electro-mechanical systems.

Intelligent Operation

Creating systems that sense, adapt, diagnose, and optimize themselves in real time.

How We Work
From Concept to Hardware

We develop technology from first principles through to tested, validated prototypes.

Design & Optimize

FEA, analytical models, AI-assisted topology and parameter optimization

Build

Additive manufacturing, winding, assembly, novel materials fabrication

Test & Validate

Dynamometer testing, thermal characterization, HIL, high-speed data acquisition

Deploy

Technology transfer, spin-out partnerships, publications, open datasets

Applications
Across the Power Spectrum

Our technologies touch applications from milliwatts to megawatts — anywhere electro-mechanical performance matters.

Artificial Heart

Medical

Chip Fabrication

Semiconductor

UAVs & Drones

Air mobility

Robotics

Automation

Electric Vehicles

Transport

HVAC Systems

Buildings

Off-Highway

Industrial

Marine Systems

Maritime

Wind Energy

Renewables

Aerospace

Aviation & Space