Analysis of Chilton Ionosonde Critical Frequency Measurements During Solar Cycle 23 in the Context of Midlatitude HF NVIS Frequency Predictions

Developing a groundbreaking ML model for swift and efficient coverage prediction in complex urban environments, enabling rapid optimisation of transmitter locations on standard computing hardware.

Enhancing the mmWave antenna design for Remedee Labs, significantly boosting RF radiation efficiency and cost-effectiveness in non-pharmaceutical chronic pain treatment.

Developing vital radar technology for the CLEAR mission, advancing space debris removal techniques to safeguard operational satellites and spacecraft.

Leading a transformative four-year research initiative to improve mobile ad-hoc networks through advanced directional antenna systems and cross-layer processing, significantly enhancing military communication capabilities.

Expertly engineering a compact, high-performance 60 GHz millimetre-wave radar system using innovative Substrate Integrated Waveguide technology, achieving significant advancements in target detection up to 100 metres.

Using innovative expertise in metamaterials to facilitate the development of advanced surfaces, improving RF communication efficiency through pioneering surface wave technology for superior antenna design and wireless connectivity.

Collaborating with WaveTech to develop an advanced mmWave radar system, enabling the rapid and automated detection of foreign object debris on runways, enhancing safety and operational efficiency at a South Korean airport.

Redesigning the Energenie Smart Home Controller interface to introduce low-power radio technology, enhancing device functionality for centralised home heating control, and launching nationwide.

Delivering a pioneering predictive maintenance solution for a global healthcare product company, utilising miniature battery-powered sensor systems to optimise automated production lines and significantly reduce costly downtimes.

Advancing a perimeter surveillance solution with long-range detection and low false-alarm rates, using state-of-the-art Passive Electronically Scanned Array technology for robust and maintenance-free operation in a range of demanding environments.

Developing an innovative distributed spectrum monitoring system, using low-cost software-defined radio platforms, to provide superior interference detection and larger coverage for high-value sites.

Advancing intelligent mobility by integrating cutting-edge electronic-scanning radar technology to ensure the safe and efficient operation of autonomous vehicles in complex real-world environments.