See a map of all the places I've given a talk!
I would love to share my knowledge and understanding on medical device research and development, software automated testing, and project management in engineering design.
Conference Presentation, MCBK Annual UK Conference, King's College London, London, UK
An examination of how AI-assisted development tools lower the implementation barrier for test automation in regulated medical device environments, presented at the MCBK Annual UK Conference at King’s College London.
Conference Presentation, Medical Informatics Europe 2026 (MIE 2026), Genova, Italy
A human-centered automation framework for modernizing healthcare imaging verification, presented at MIE 2026 in Genova, Italy.
Talk, Selenium Conference 2025, Valencia, Spain
A unique, readable, and maintainable test automation method for medical imaging UI software
Poster, RSLondon Southeast, Imperial College London, London, UK
An automated UI software testing framework for medical imaging applications, presented at RSLondon
Poster, Society for Neuroscience, Washington DC, USA
Functional electrical stimulation can activate weakened or paralyzed muscles during locomotion by using kinematic signals to control stimulation. Building on evidence that positive force feedback from Golgi tendon organs enhances load-bearing tasks, we engineered a feedback-controlled stimulation system to increase muscle force in cases of muscle weakness. In decerebrate cats, muscle force was recorded during stretch and used to trigger intramuscular electrical stimulation, amplifying force output beyond the stretch reflex. Adjustable thresholds and gains allowed us to explore system stability, revealing that stimulation remained stable across a wide parameter range, but excessive gain or low thresholds led to prolonged contractions. Clinically, electromyographic signals could provide feedback, with stimulation delivered via intramuscular or surface electrodes.