Novel Early Warning System for Hypoglycaemia. An innovative technique will be developed for early detection of low blood glucose level (hypoglycaemia), a life-threatening complication affecting millions of people with Type 1 diabetes worldwide. Real-time analysis of the effectiveness of skin impedance, ECG (in particular heart rate and QT interval), and EEG (alpha wave) will be combined with robust adaptive neural networks to provide a novel theoretical and practical basis for developing a non-i ....Novel Early Warning System for Hypoglycaemia. An innovative technique will be developed for early detection of low blood glucose level (hypoglycaemia), a life-threatening complication affecting millions of people with Type 1 diabetes worldwide. Real-time analysis of the effectiveness of skin impedance, ECG (in particular heart rate and QT interval), and EEG (alpha wave) will be combined with robust adaptive neural networks to provide a novel theoretical and practical basis for developing a non-invasive hypoglycaemia monitor. This device has the potential to save lives, improve quality of life for people with diabetes and their carers, and put Australia at the forefront in this $US5 billion pa industry.Read moreRead less
Micromachined electrode arrays for improved performance and manufacturability of cochlear neuroprostheses. The cochlear implant for the deaf, and bionic eye for the blind are two devices where Australian researchers possess considerable expertise. Benefit can be had from collaborative research between these non-competing scientific fields. Microelectrodes is an area wherein overcoming the unique requirements of one field offers new opportunities in the other. We aim to enhance Australia's leader ....Micromachined electrode arrays for improved performance and manufacturability of cochlear neuroprostheses. The cochlear implant for the deaf, and bionic eye for the blind are two devices where Australian researchers possess considerable expertise. Benefit can be had from collaborative research between these non-competing scientific fields. Microelectrodes is an area wherein overcoming the unique requirements of one field offers new opportunities in the other. We aim to enhance Australia's leadership in cochlear implants by applying decade-long research on electrode fabrication techniques for the bionic eye into 3D shapes for the cochlea. Furthermore, we aim to further improve the effectiveness, safety and reliability of the cochlear implant while facilitating increased electrode numbers.Read moreRead less
A hands-free assistive control system for the severely disabled capable of operating under stressful and fatiguing conditions. The impact of severe disability like tetraplegia in daily living is substantial. Strategies are needed to improve their quality of life. One approach is to enhance their independence by providing 'hands free' control over their environment. However, few scientific studies have examined the efficacy of such technology. The aim of this research is to study the brain activi ....A hands-free assistive control system for the severely disabled capable of operating under stressful and fatiguing conditions. The impact of severe disability like tetraplegia in daily living is substantial. Strategies are needed to improve their quality of life. One approach is to enhance their independence by providing 'hands free' control over their environment. However, few scientific studies have examined the efficacy of such technology. The aim of this research is to study the brain activity of users of our "hands free" technology when they are operating under stressful and fatiguing conditions. The study should provide valuable data that will allow us to improve the efficacy of our existing brain signal based system (Mind Switch Assistive System). Read moreRead less
Access to mobile communications for older people with impairments. This research will determine the potential to use mobile communications to enable older people with impairments to remain active members of the community. it will test the capacity for mobiles to enable:
* older people with impairments to maintain social communication links and summon assistance; and
* caregivers to maintain contact with the older person during the day.
Providing these capabilities has the potential to improve ....Access to mobile communications for older people with impairments. This research will determine the potential to use mobile communications to enable older people with impairments to remain active members of the community. it will test the capacity for mobiles to enable:
* older people with impairments to maintain social communication links and summon assistance; and
* caregivers to maintain contact with the older person during the day.
Providing these capabilities has the potential to improve the wellbeing and confidence of older people with impairments and their caregivers and to reduce negative outcomes due to falls or other medical problems by enabling older people to summon assistance easily.Read moreRead less