Improving road safety: advanced hybrid vehicle-based technology for monitoring driver drowsiness. Innovative technology geared towards reducing road accidents and fatalities (for improving public health) will constitute major socio-economic benefit to Australia. The Australian Transport Safety Bureau notes fatigue as a major cause of road accidents (2006). The World Health Organisation dedicated World Health Day 2004 to road safety and emphasized the importance of combating fatigue ('Road Safety ....Improving road safety: advanced hybrid vehicle-based technology for monitoring driver drowsiness. Innovative technology geared towards reducing road accidents and fatalities (for improving public health) will constitute major socio-economic benefit to Australia. The Australian Transport Safety Bureau notes fatigue as a major cause of road accidents (2006). The World Health Organisation dedicated World Health Day 2004 to road safety and emphasized the importance of combating fatigue ('Road Safety is no Accident'). This research will develop an innovative driver drowsiness detecting technology. With drowsiness attributable to substantial road fatalities, this technology aims to reduce this emotional and socio-economic burden on the community, contributing to national and community benefit by providing a safer road environment.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE170100068
Funder
Australian Research Council
Funding Amount
$390,000.00
Summary
Bioinspired liposome-based smart sensors. This project aims to develop a liposome-based biosensor technology that mimics cell sensory systems. Selective detection of compounds is increasingly important for food, health and environmental monitoring. Biosensor development faces long-standing challenges such as response time, sensitivity, specificity, and multiplexing. On the other hand, cells can sense and discriminate multiple biomolecules in seconds with high sensitivity and specificity. This pr ....Bioinspired liposome-based smart sensors. This project aims to develop a liposome-based biosensor technology that mimics cell sensory systems. Selective detection of compounds is increasingly important for food, health and environmental monitoring. Biosensor development faces long-standing challenges such as response time, sensitivity, specificity, and multiplexing. On the other hand, cells can sense and discriminate multiple biomolecules in seconds with high sensitivity and specificity. This project aims to harness cells’ exquisite biological properties to improve current detection techniques. It will integrate liposome-based sensors with microfluidics to perform analytical tasks ranging from food safety to diagnostics.Read moreRead less