Research Programme
Our research is built around six technology pillars, each independently developed, computationally validated, and filed for patent protection. Together they form a coordinated platform with thermal management, impact protection, physiological intelligence, and autonomous wound care working as one system, not isolated components.
We have filed patents in the following areas:
Adaptive Thermal Management
Active thermal regulation that maintains safe core body temperature across extreme heat and cold. Designed for sustained operations where passive cooling fails, and the thermal cage becomes the limiting factor.
Autonomous Energy Architecture
Proprietary energy architecture that powers protective functions without reliance on conventional portable power, enabling sustained autonomous operation in the field.
Predictive Physiological Intelligence
Anticipatory control that reads physiological and environmental signals to adjust protection before critical thresholds are reached — not after. Integrates with existing operational infrastructure.
Advanced Impact Protection
AI-optimised protective structures that absorb impact energy across multiple threat profiles while maintaining form factor and weight constraints that conventional protection cannot achieve.
Bioresponsive
Systems
Autonomous wound monitoring and targeted therapeutic response for prolonged field care where conventional medical support is delayed or unavailable and the textile itself must act.
Configurable Protection Platform
A modular connector architecture that allows thermal, protective, sensing, and therapeutic layers to be combined or swapped for specific operational requirements without rebuilding the base system.
Gain Deeper Insight
Each research pillar is backed by computational simulation, prior art analysis, and structured design review. Our interactive simulation platform demonstrates the thermal management methodology across operational scenarios. Technical detail is available under NDA to qualified parties.