A computational auditory model based on (human) binaural suppression of reflections in complex environments. The research carried out throughout this project aims at understanding fundamental auditory mechanisms, which are essential for the human being to communicate successfully in natural environments. The derived results could be of high importance for various speech processing applications (e.g., Telecommunication Systems, Hearing Aids, Automatic Speech Recognizers), which have severe diffic ....A computational auditory model based on (human) binaural suppression of reflections in complex environments. The research carried out throughout this project aims at understanding fundamental auditory mechanisms, which are essential for the human being to communicate successfully in natural environments. The derived results could be of high importance for various speech processing applications (e.g., Telecommunication Systems, Hearing Aids, Automatic Speech Recognizers), which have severe difficulties to function in such natural environments. Hence, this research might be of considerable economic and social benefit to Australia. Furthermore, this research presents a highly interdisciplinary approach, and thus provides a solid platform for interdisciplinary training of students.Read moreRead less
Design and Experimental Demonstration of Ultrabroadband Silicon Optical Amplifiers. The current success of the electronics industry rests on pillars made from the low cost, high performance and flexibility of silicon compounds. Silicon-based optics provides a new platform for the monolithic integration of optics and electronics. In this project, a multi-disciplinary team consisting of pioneers of nonlinear optics and siliconized photonics build a next-generation broadband silicon optical amplif ....Design and Experimental Demonstration of Ultrabroadband Silicon Optical Amplifiers. The current success of the electronics industry rests on pillars made from the low cost, high performance and flexibility of silicon compounds. Silicon-based optics provides a new platform for the monolithic integration of optics and electronics. In this project, a multi-disciplinary team consisting of pioneers of nonlinear optics and siliconized photonics build a next-generation broadband silicon optical amplifier which can open the door to a new low-power, wide-bandwidth, high-speed and ultra-small optoelectronic devices. The technological advances arising from this project will provide Australia with critical capabilities for future commercial ventures and strengthen Australia's stake in the multi-trillion dollar semiconductor industry.Read moreRead less
Airborne passive radiometer for high resolution soil moisture monitoring. The project proposes to create a novel technology to measure soil moisture. Accurate knowledge of soil moisture profiles at high resolution is important for sustainable land and water management including efficient irrigation scheduling and cropping practices. A passive multi-band soil moisture-measuring radiometer at L-, Ku- and Ka-bands is proposed. The radiometer comprises a three-band shared aperture antenna array, a ....Airborne passive radiometer for high resolution soil moisture monitoring. The project proposes to create a novel technology to measure soil moisture. Accurate knowledge of soil moisture profiles at high resolution is important for sustainable land and water management including efficient irrigation scheduling and cropping practices. A passive multi-band soil moisture-measuring radiometer at L-, Ku- and Ka-bands is proposed. The radiometer comprises a three-band shared aperture antenna array, a receiving electronics, a digital controller and a data logger. The array antenna comprises dual polarised stacked patch elements. Beamforming networks form agile beams to scan the ground. Sensitive radiometer receivers apply brightness temperature downscaling for high resolution. The high-resolution passive radiometer would revolutionise airborne soil moisture monitoring by removing the mechanically steerable bulky and heavy scanheads.Read moreRead less
Reconfigurable antennas for satellite on-the-move communications. Reconfigurable antennas for satellite on-the-move communications. This project aims to design and develop low-cost reconfigurable end-user antennas that could be integrated with low-earth-orbit satellites so regional and remote Australians can access broadband. While broadband is taking its place alongside water and electricity as essential infrastructure, people in regional Australia lack genuine broadband services. These antenna ....Reconfigurable antennas for satellite on-the-move communications. Reconfigurable antennas for satellite on-the-move communications. This project aims to design and develop low-cost reconfigurable end-user antennas that could be integrated with low-earth-orbit satellites so regional and remote Australians can access broadband. While broadband is taking its place alongside water and electricity as essential infrastructure, people in regional Australia lack genuine broadband services. These antennas are expected to give these communities reliable access to e-health services and distance education, and make their businesses more productive with access to new markets. The proposed antennas should also make broadband services available in the air, at sea, or on the move.Read moreRead less
Discreet reading of printable multi-bit chipless radio frequency identification (RFID) tags on polymer banknotes. Counterfeiting of banknotes is a serious and costly world-wide problem, and very sophisticated measures are necessary to thwart counterfeiters. This project will use radio frequency identification techniques to enable bank tellers and other staff handling cash to discreetly check banknotes as they count them in front of customers.
Discovery Early Career Researcher Award - Grant ID: DE160100918
Funder
Australian Research Council
Funding Amount
$340,000.00
Summary
Real-Time Electromagnetic-wave Engineering for Advanced Wireless Systems. This project aims to enable and accelerate the development and deployment of next generation high-speed wireless networks, particularly in high network density areas. It aims to apply real-time electromagnetic signal processing engineering to achieve all-analog mm-wave radio systems for ultrafast wireless systems. Next-generation wireless networks will need to support a 1000-fold increase in data capacity. The mere evoluti ....Real-Time Electromagnetic-wave Engineering for Advanced Wireless Systems. This project aims to enable and accelerate the development and deployment of next generation high-speed wireless networks, particularly in high network density areas. It aims to apply real-time electromagnetic signal processing engineering to achieve all-analog mm-wave radio systems for ultrafast wireless systems. Next-generation wireless networks will need to support a 1000-fold increase in data capacity. The mere evolution of current digital based mobile technologies will be largely insufficient to meet the anticipated demands, and in light of rapid transitions towards mm-wave domain, new disruptive technological solutions are needed. This project aims to provide these new technological devices and systems for the faster deployment of future wireless networks in Australia.Read moreRead less
Compact Millimeter-Wave Terminal for LEO Satellite Communications. On the basis of the cutting-edge and concept-proofed beam-steerable antenna invented by the team, this project aims at tackling the system-level challenges and developing a commercial-ready millimeter-wave satellite terminal to deal with the digital inequality facing rural and remote Australia. The proposed terminal can lead to a household-affordable price system that is compact and can be installed on a fixed/mobile platform for ....Compact Millimeter-Wave Terminal for LEO Satellite Communications. On the basis of the cutting-edge and concept-proofed beam-steerable antenna invented by the team, this project aims at tackling the system-level challenges and developing a commercial-ready millimeter-wave satellite terminal to deal with the digital inequality facing rural and remote Australia. The proposed terminal can lead to a household-affordable price system that is compact and can be installed on a fixed/mobile platform for broadband connectivity. The project will have an immediate socio-economic impact for families and small businesses located in rural areas in Australia that have poor digital access, meanwhile, it has great potential to transform the local industry partner' business into a highly profitable emerging market.Read moreRead less
Microwave Detection of Structural Degradation in Maritime Industry. Novel applications of microwave technology to inspection systems in marine infrastructure will transform industry practice. By utilizing multi-mode antennas, the project aims to develop a gold-standard in microwave inspection, delivering more accurate and early detection of defects. The project aims will be achieved by combining innovative microwave technology, featuring multi-mode antennas and novel processing and imaging algor ....Microwave Detection of Structural Degradation in Maritime Industry. Novel applications of microwave technology to inspection systems in marine infrastructure will transform industry practice. By utilizing multi-mode antennas, the project aims to develop a gold-standard in microwave inspection, delivering more accurate and early detection of defects. The project aims will be achieved by combining innovative microwave technology, featuring multi-mode antennas and novel processing and imaging algorithms, with ground-breaking smart scanning and unmanned marine vehicle implementations. This innovative outcome obviates the need for current industry approaches based on inaccurate and tedious manual inspections, yielding massive cost savings and reductions in hazard associated with unanticipated structural failure.Read moreRead less
Digitally controlled mm-wave band selective devices and MEMS technology. This project aims to develop millimetre-wave frequency selective devices with programmable frequency response, using a silicon technology platform. It will design and make an entire radio system, including its tuneable antenna, at the wafer level. Wafer scale integration ensures the devices are compact and low cost, and can be inserted into smart watches for touchless gesture control, and minuscule devices, too small to be ....Digitally controlled mm-wave band selective devices and MEMS technology. This project aims to develop millimetre-wave frequency selective devices with programmable frequency response, using a silicon technology platform. It will design and make an entire radio system, including its tuneable antenna, at the wafer level. Wafer scale integration ensures the devices are compact and low cost, and can be inserted into smart watches for touchless gesture control, and minuscule devices, too small to be connected to the internet today. The project will demonstrate its devices in a wireless communication system operating at unprecedented data rates of over 100 Gb/s. These could transform terrestrial and satellite communication systems and propel Australia to the forefront of wireless communications.Read moreRead less
Running Hot: Increasing the Availability of World-Class Precision Timing . Precision clocks are a key enabler for many important technologies including navigation, radar, distributed computing and communications. Unfortunately, the very best clocks are currently bulky and very expensive. This project will take Australia’s multi-award winning sapphire clock technology and transform it so that its unmatched performance is available from a unit with an order of magnitude smaller size, power consum ....Running Hot: Increasing the Availability of World-Class Precision Timing . Precision clocks are a key enabler for many important technologies including navigation, radar, distributed computing and communications. Unfortunately, the very best clocks are currently bulky and very expensive. This project will take Australia’s multi-award winning sapphire clock technology and transform it so that its unmatched performance is available from a unit with an order of magnitude smaller size, power consumption and cost. This transformation will be driven on the back of a patented revolutionary step that allows operation of the sapphire clock at higher cryogenic temperatures. The new clock will have a wider range of applications delivering more computational power, higher bandwidth transmissions and better radar. Read moreRead less