Wearable device design with continuous cuff-less blood pressure measurement. This project aims to develop a non-invasive, body-worn device able to monitor blood pressure (BP) continuously in real time. The project proposes new sensing techniques for blood pressure measurement based on capturing pulse transit time in the central arteries using a combination of electrical bio-impedance, electrocardiogram (ECG), and continuous wave radar. Coupled with other vital parameters including heart rate, he ....Wearable device design with continuous cuff-less blood pressure measurement. This project aims to develop a non-invasive, body-worn device able to monitor blood pressure (BP) continuously in real time. The project proposes new sensing techniques for blood pressure measurement based on capturing pulse transit time in the central arteries using a combination of electrical bio-impedance, electrocardiogram (ECG), and continuous wave radar. Coupled with other vital parameters including heart rate, heart rhythm, respiratory rate, and oxygen saturation, it is expected that the device will enable remote monitoring with wireless connectivity and with many advantages over the traditional wired monitoring methods currently used in healthcare environments and it will assist with more effective prevention, home care and treatment.Read moreRead less
Low cost, efficient and more reliable power switching network. This project aims to propose new power electronics circuit integration concepts and control techniques to reduce power supply cost by at least 30 per cent while improving efficiency and reliability. Photovoltaic combined battery storage application will be implemented and tested in detail to demonstrate the feasibility of the proposed concepts. The outcomes of the project will benefit many emerging technologies such as electric vehic ....Low cost, efficient and more reliable power switching network. This project aims to propose new power electronics circuit integration concepts and control techniques to reduce power supply cost by at least 30 per cent while improving efficiency and reliability. Photovoltaic combined battery storage application will be implemented and tested in detail to demonstrate the feasibility of the proposed concepts. The outcomes of the project will benefit many emerging technologies such as electric vehicles, renewable energy and energy storage systems, wireless communications and portable devices.Read moreRead less
Integrated energy conversion and management systems in silicon-on-sapphire. The aim of this research is to develop specialised "power-supply-on-a-chip" integrated circuits (ICs) for efficient conversion and management of electrical energy. The project will utilise and develop the unique local expertise and IC fabrication capability in silicon-on-sapphire technology in partnership with Sapphicon Semiconductor Pty. Ltd. The ICs developed will be used to improve the performance of small-scale elect ....Integrated energy conversion and management systems in silicon-on-sapphire. The aim of this research is to develop specialised "power-supply-on-a-chip" integrated circuits (ICs) for efficient conversion and management of electrical energy. The project will utilise and develop the unique local expertise and IC fabrication capability in silicon-on-sapphire technology in partnership with Sapphicon Semiconductor Pty. Ltd. The ICs developed will be used to improve the performance of small-scale electric power and transport systems based on alternative energy sources, thereby assisting energy self-sufficiency in rural and remote communities and reducing Australia's dependence on fossil and other non-renewable fuels. Sales of the ICs will also generate export income for Australian industry.Read moreRead less