The aim of my work is to understand how we hear sound and to use this knowledge to create bio-inspired solutions to enhance speech communication.
I have continuously worked on various aspects of hearing research and technology and have been principal investigator on various research grants (EU, EPSRCS, etc) with a value of more than £2M. I am team leader with an internationally recognised research programme to develop devices that help normal hearing and hearing-impaired people to communicate better in noise. Methodologies include brainstem physiology, neuronal simulations, deep learing, psychophysics, pupil tracking and other physiological measurements.
His research interests include: Standard Model (QCD and EW Interactions), Supersymmetry, Non-minimal Higgs Models, Higher Order Corrections and Monte Carlo Event Generators.
Prof Moretti’s scientific activity is in particle phenomenology, particularly in the area of collider physics. His contribution to particle physics is substantial as seen from more than 550 scientific papers/articles that he has published. (Please ignore the metrics provided by other databases these pages as they are completely wrong for my field of specialisation, always refer to iNSPIRE ones.)
Prof Moretti is also author of two textbooks, S. Khalil and S. Moretti, `Supersymmetry Beyond Minimality: from Theory to Experiment' and 'SM Phenomenology', both with CRC Press, Taylor & Francis Group. (Plus two more are in the pipeline.)
