Designing Bandwidth-Efficient High-Speed Underwater Acoustic Communication Systems with Block-by-Block Turbo Processing. Australia has one of the largest exclusive economic zones in the world, and it is vitally important for Australia to understand and benefit from the oceans. This project will give new perspectives in developing underwater acoustic communications that are important for marine industries and scientific research in areas such as the exploration and exploitation of offshore oil an ....Designing Bandwidth-Efficient High-Speed Underwater Acoustic Communication Systems with Block-by-Block Turbo Processing. Australia has one of the largest exclusive economic zones in the world, and it is vitally important for Australia to understand and benefit from the oceans. This project will give new perspectives in developing underwater acoustic communications that are important for marine industries and scientific research in areas such as the exploration and exploitation of offshore oil and gas, and ocean environment and climate monitoring. This project will lift the international profile of Australia in underwater acoustic communications research and, through the training of early career researchers and PhD students, this project will also develop a skills base for Australia in underwater acoustic communications.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE240100179
Funder
Australian Research Council
Funding Amount
$461,000.00
Summary
Lead-free Perovskite Nanowires for Artificial Photo-synapse Arrays. This project aims to develop lead-free perovskite nanowires based nanoscale artificial photo-synapse arrays for energy-efficient and high-speed neuromorphic computing applications. The aim will be achieved through engineering the materials interfaces between the perovskite nanowires/electrodes and developing a novel orthogonal electron beam lithography process established by the candidate. The innovative nanoscale integration of ....Lead-free Perovskite Nanowires for Artificial Photo-synapse Arrays. This project aims to develop lead-free perovskite nanowires based nanoscale artificial photo-synapse arrays for energy-efficient and high-speed neuromorphic computing applications. The aim will be achieved through engineering the materials interfaces between the perovskite nanowires/electrodes and developing a novel orthogonal electron beam lithography process established by the candidate. The innovative nanoscale integration of perovskite photo-synapse circuits will be demonstrated for image recognition applications. The success of this project will advance perovskites in the next-generation memristor devices and ensure Australia as a global leader in the emerging technology of perovskite nanoelectronics for neuromorphic computations.Read moreRead less
Investigation into improved wireless communication for rural and regional Australia. The project will improve the performance of wireless communications allowing better and more accessible communication throughout rural and regional Australia. This will enable a more efficient communications as it will reduce the requirements of cables.
Smart Antennas for Broadband Wireless Data Systems. Smart antennas can facilitate accommodation of an increasing demand for bandwidth and quality in wireless communications by directing the antenna beam towards the desired user, while suppressing signals coming from interferers. The beam forming processor can adapt to changes in channel propagation conditions as well as movements of the user or interferers. Many algorithms for controlling smart antennas have been proposed, and usually there is a ....Smart Antennas for Broadband Wireless Data Systems. Smart antennas can facilitate accommodation of an increasing demand for bandwidth and quality in wireless communications by directing the antenna beam towards the desired user, while suppressing signals coming from interferers. The beam forming processor can adapt to changes in channel propagation conditions as well as movements of the user or interferers. Many algorithms for controlling smart antennas have been proposed, and usually there is a trade-off between complexity and performance. We aim to find a suitable compromise to implement smart antennas for broadband wireless access systems and to apply smart antenna technology to increase the range of ultra-wideband communications.Read moreRead less
Building Novel Solid State Electric Double Layer Transistors with Interface Engineering of Ionic Conductive Oxide Superlattices. Transistors are the fundamental building blocks of modern electronic devices, which continue to diminish in size to achieve higher speeds. However, the development of this technology has been impeded by low carrier density in the gate dielectric materials. Therefore, increasing the attainable carrier density has become critically important for both scientific research ....Building Novel Solid State Electric Double Layer Transistors with Interface Engineering of Ionic Conductive Oxide Superlattices. Transistors are the fundamental building blocks of modern electronic devices, which continue to diminish in size to achieve higher speeds. However, the development of this technology has been impeded by low carrier density in the gate dielectric materials. Therefore, increasing the attainable carrier density has become critically important for both scientific research and industrial applications. This project aims at experimental and theoretical development of advanced ionic conductive oxide superlattices with colloidal nanocubes for novel solid state electric double layer transistors, which possess ultrahigh carrier density and mobility, to surmount the fundamental limit of current silicon semiconductor technologies.Read moreRead less
A Spatially-Aware RFID-enhanced Sensor Network. Using radio frequency identity (RFID) tags to revolutionise sensor network technologies has the potential to have wide ranging impacts on many of Australia's key industries, including precision agriculture, health care and habitat monitoring (e.g., bush fires).
This fundamental research will create a new type of communication network that will have tremendous impact by allowing monitoring and tracking technologies to be deployed over large, infr ....A Spatially-Aware RFID-enhanced Sensor Network. Using radio frequency identity (RFID) tags to revolutionise sensor network technologies has the potential to have wide ranging impacts on many of Australia's key industries, including precision agriculture, health care and habitat monitoring (e.g., bush fires).
This fundamental research will create a new type of communication network that will have tremendous impact by allowing monitoring and tracking technologies to be deployed over large, infrastructure-free areas at nominal cost. By contributing to the solution of the cost and complexity problems that limit practical deployment of sensor networks, we hope help Australia become a global leader in realizing real-world benefits from information communication technologies.Read moreRead less
Demonstrating Advantages of Smart Antennas in Indoor Wireless Communications Systems. The performance of indoor wireless communications systems is adversely affected by multi-path signal propagation. When the received signal drops below a certain level, the usual practice is that the receiving station requests the transmitting device to increase its output power. An adverse effect of this action is a reduced life of battery of a portable transceiver, more power being radiating towards users and ....Demonstrating Advantages of Smart Antennas in Indoor Wireless Communications Systems. The performance of indoor wireless communications systems is adversely affected by multi-path signal propagation. When the received signal drops below a certain level, the usual practice is that the receiving station requests the transmitting device to increase its output power. An adverse effect of this action is a reduced life of battery of a portable transceiver, more power being radiating towards users and an increase of interference. The aim of this project is to demonstrate an alternative method of maintaining good quality communication link. The proposed method employs a smart antenna system to mitigate adverse effects of multi-path and interference.Read moreRead less
Broadband to the bush: Polarization as a new resource in wireless cross-layer design. 'Broadband to the Bush' is a national priority - more than 1.6 million homes, small businesses and not-for-profit organizations in rural, regional, and remote Australia are set to benefit from broadband access to phone networks and the internet. The immediate challenges lie in overcoming poor download speeds and area coverage, as well as expensive access. This research will deliver cost and power-efficient re ....Broadband to the bush: Polarization as a new resource in wireless cross-layer design. 'Broadband to the Bush' is a national priority - more than 1.6 million homes, small businesses and not-for-profit organizations in rural, regional, and remote Australia are set to benefit from broadband access to phone networks and the internet. The immediate challenges lie in overcoming poor download speeds and area coverage, as well as expensive access. This research will deliver cost and power-efficient receiver architectures to provide end-user utility, and will train postgraduate researchers across traditional discipline boundaries in mathematics and engineering. The project represents an important contribution to frontier technologies in information and communications technology for building and transforming Australian industries.Read moreRead less
Swarms in Urban Villages: New Media Design to Augment Social Networks of Residents in Inner-City Developments. This study will develop advanced knowledge of how urban neighbourhood communities can be assisted to grow in healthy ways by the use of new media and ICTs. By careful attention to cultural and social assets in the community, innovations will be engendered which enhance economic and social development. This will lead to greater social inclusion, fair access to and smart use of informatio ....Swarms in Urban Villages: New Media Design to Augment Social Networks of Residents in Inner-City Developments. This study will develop advanced knowledge of how urban neighbourhood communities can be assisted to grow in healthy ways by the use of new media and ICTs. By careful attention to cultural and social assets in the community, innovations will be engendered which enhance economic and social development. This will lead to greater social inclusion, fair access to and smart use of information and services, urban sustainability and healthier local economies. Understanding the opportunities afforded by digital augmentation of social networks will help Australians negotiate the complex web of daily choices, access a greater social safety net and participate in the socio-cultural and socio-economic life of their neighbourhood and city.Read moreRead less
Design of Planar Microwave Components and Sub-systems for Wideband Applications. The present research proposal will support the development of the Australian wireless communication industries by providing them with new solutions of fully integrated low-profile and compact size wideband wireless sub-systems, as demanded by emerging wideband applications. This goal will be accomplished by applying a new technique to the design of planar microwave circuits. The proposed solution should lead to impr ....Design of Planar Microwave Components and Sub-systems for Wideband Applications. The present research proposal will support the development of the Australian wireless communication industries by providing them with new solutions of fully integrated low-profile and compact size wideband wireless sub-systems, as demanded by emerging wideband applications. This goal will be accomplished by applying a new technique to the design of planar microwave circuits. The proposed solution should lead to improved competitiveness of the Australian communication companies in a global wireless communications market.Read moreRead less