"Everything we call real is made of things that cannot be regarded as real." - Niels Bohr 
Wearable Electronics
I am interested in developing non-invasive wearable sensors, sensory pathways and low power miniature integrated devices with intelligent processing to enhance the quality of human life by providing various wearable solutions to healthcare, sports and industrial sectors. Some of the collaborative projects that I am part of are listed below:

Heart and Respiration In-Car Embedded Non-Intrusive Sensors (HARKEN)











Fetal Helth Monitoring Vest





Persistance Emotion Detection






Diabatic Monitoring

This project aimed to monitor health and fatigue conditions of the driver to reduce road accidents. We have successfully designed nonintrusive piezo-resistive sensor arrays and the signal processing algorithms to detect the driver's heart and respiratory signals. The sensor arrays embedded in the seat cover and the safety belt of a car. The project was successfully completed in 2014, demonstrating the heart and respiratory signals captured from a driver while driving. The project was funded by the European Union’s 7th Framework Program for Research, and the work was done with the collaboration of Instituto de Biomecánica de Valencia, and small- and medium- sized enterprises from leading European car parts, biomedical devices and wearable sensors manufacturing industries (Borgstena, PLUX Wireless Biosignals, Pera Technology company, Sensing Tex, and Fico Mirrors).

Need for a wearable long-duration fetal health monitoring device is identified as an unmet medical need in the UK. Such a monitoring device could facilitate continued monitoring to reduce stillbirths. This research funded by Tommy’s Research Fund, EPSRC Knowledge Exchange IAA Funds, Manchester: Integrating Medicine and Innovative Technology and UMIP Pathfinder Fund. The work carried out with the collaboration of St Mary’s Hospital, FBMH and the School of Electrical and Electronic Engineering and the School of Materials at the University of Manchester.
I am interested in investigating a method to detect the persistent emotion levels of human, which may help to identify symptoms and initial triggers for chronic stress that may lead to mental illnesses and other long-term health complications such as obesity, heart disease, diabetes, depression, gastrointestinal problems, asthma, etc. Such a device could enable the introduction of novel effective techniques to treat patients. Although there are a lot of research challenges to overcome if successful, the outcomes could help humanity by providing the wisdom to manage day-to-day stress build up, ensuring a happier and healthier life.
Having a wearable non-invasive device to monitor glucose levels of diabetes patients is an unmet medical need in the UK. We are interested in investigating novel methods of monitoring diabetes using non-invasive methods with the collaboration of the Stepping Hill Hospital, Stockport.