Practical multi-receiver passive radar with low-cost synchronisation. This project aims to address the current challenges of developing practical multi-receiver passive radar systems, through the development of advanced receiver synchronisation techniques, which do not require the deployment of costly infrastructure. The project will develop novel algorithms and techniques that enable synchronous combining of data from multiple radars, allowing for the detection of smaller targets and significan ....Practical multi-receiver passive radar with low-cost synchronisation. This project aims to address the current challenges of developing practical multi-receiver passive radar systems, through the development of advanced receiver synchronisation techniques, which do not require the deployment of costly infrastructure. The project will develop novel algorithms and techniques that enable synchronous combining of data from multiple radars, allowing for the detection of smaller targets and significantly extending the radar coverage zone. The expected outcomes of this project include improved performance of passive radar systems and the advancement of radar technology. The benefits of this project include new applications in areas such as traffic monitoring, drone detection and national security.Read moreRead less
The Interplay of Feedback Control and Digital Communications. This project deals with two research topics in digital communications and control. The first is concerned with feedback communications for control systems, aiming to develop new design methods for network-based automation and control. The second studies new decoding and detection algorithms for digital communications. Applications of the proposed research work include network-based industrial control, wireless communication devices, a ....The Interplay of Feedback Control and Digital Communications. This project deals with two research topics in digital communications and control. The first is concerned with feedback communications for control systems, aiming to develop new design methods for network-based automation and control. The second studies new decoding and detection algorithms for digital communications. Applications of the proposed research work include network-based industrial control, wireless communication devices, and high density digital storage media. The cross-fertilisation of control systems and digital communications will help strengthen Australia's research expertise in the National Research Priority area "Information and Communications Technology" (ICT). Read moreRead less
Adaptive MIMO Signalling Techniques and Their Applications in Wireless Communications and Radar Systems. The proposed project will contribute to theory, design and deployment of forthcoming wireless systems. The new technology will enable a breakthrough in avaliable data rates leading to introduction of novel multimedia services. Indirectly, the project will impact implementation and penetration of wireless devices and services. In society will advanced wireless services remote home medical care ....Adaptive MIMO Signalling Techniques and Their Applications in Wireless Communications and Radar Systems. The proposed project will contribute to theory, design and deployment of forthcoming wireless systems. The new technology will enable a breakthrough in avaliable data rates leading to introduction of novel multimedia services. Indirectly, the project will impact implementation and penetration of wireless devices and services. In society will advanced wireless services remote home medical care, diagnosis and surgery will become common. Compact wireless devices attached to various objects, flora and fauna, will contribute to logistics effeciency, protecting global environment and preventing disasters. At a broader scale these developments will thus contribute to the overall quality of life.Read moreRead less
Network code division multiplexing in multi-system wireless networks. Multi-system communications and cooperative relay transmission techniques are expected to become one of the key radio technologies and could have a far-reaching impact on the Australian economy and environment. Presently, the knowledge base in these areas is very limited, given that the interest in them started very recently. The proposed program will contribute to theory, design and development of network code division multip ....Network code division multiplexing in multi-system wireless networks. Multi-system communications and cooperative relay transmission techniques are expected to become one of the key radio technologies and could have a far-reaching impact on the Australian economy and environment. Presently, the knowledge base in these areas is very limited, given that the interest in them started very recently. The proposed program will contribute to theory, design and development of network code division multiplexing in multi-system communications and nationwide deployment of future wireless networks. The program will provide comprehensive training opportunities for students and staff members, covering a wide range of engineering processes, from fundamental principles to practical implementations.Read moreRead less
Efficient Distributed Coding In Wireless Networks. Multi-hop relay networking has been considered to be a significant evolution of future wireless networks. This project will expand the knowledge of multi-hop relay networking by creating a new set of distributed coding and cooperative signal processing techniques. The proposed research is significant for improving the capacity and coverage of wireless networks. Australia's unique geography, with vast sparsely populated areas, is ideally suited f ....Efficient Distributed Coding In Wireless Networks. Multi-hop relay networking has been considered to be a significant evolution of future wireless networks. This project will expand the knowledge of multi-hop relay networking by creating a new set of distributed coding and cooperative signal processing techniques. The proposed research is significant for improving the capacity and coverage of wireless networks. Australia's unique geography, with vast sparsely populated areas, is ideally suited for the deployment of this technology to provide high data rate service over large geographical areas.Read moreRead less
Making Australian TV in the 21st Century. Existing practices designed to enable Australian television to achieve national cultural and economic objectives have been deeply transformed by the impact of technological change and foreign ownership. This project investigates the intertwined implications of non-Australian ownership, technological adjustments, policy changes, and support adjustments enacted since the mid-00s that have challenged the making of ‘Australian’ television. The investigation ....Making Australian TV in the 21st Century. Existing practices designed to enable Australian television to achieve national cultural and economic objectives have been deeply transformed by the impact of technological change and foreign ownership. This project investigates the intertwined implications of non-Australian ownership, technological adjustments, policy changes, and support adjustments enacted since the mid-00s that have challenged the making of ‘Australian’ television. The investigation will develop data and analysis relevant to policy debates, terms of trade, and collective agreements useful to national policymakers, producers, content providers, industry bodies, media and communication researchers, and audiences.Read moreRead less
Dynamic Spectrum Access in Multi-Hop Wireless Broadband Networks. Recent studies have shown that significant portions of the licensed spectra are idle most of the time. Cognitive radio is a technology allowing unlicensed devices to use parts of the licensed spectrum not occupied by the licensed devices. In this program we will design communication networks capable of sensing the radio environment and selecting suitable spectral bands for transmission. This program will expand the knowledge of co ....Dynamic Spectrum Access in Multi-Hop Wireless Broadband Networks. Recent studies have shown that significant portions of the licensed spectra are idle most of the time. Cognitive radio is a technology allowing unlicensed devices to use parts of the licensed spectrum not occupied by the licensed devices. In this program we will design communication networks capable of sensing the radio environment and selecting suitable spectral bands for transmission. This program will expand the knowledge of cognitive networks theory by creating new dynamic spectrum access and interference cancellation techniques. The proposed research is significant for improving the radio spectrum usage in Australia and it will have an excellent commercial potential. Read moreRead less
Design and Implementation of Ultra-Low Power Cooperative Communication Terminals. Low power consumption is one of the most critical issues for wide deployment of wireless sensor networks and implementation of 4G communication systems. In the proposed project we will devise novel ultra-low power signal processing and hardware design techniques enabling a significant advance in wireless communication technology. The novel algorithms can be applied in home networks, irrigation in agriculture, envir ....Design and Implementation of Ultra-Low Power Cooperative Communication Terminals. Low power consumption is one of the most critical issues for wide deployment of wireless sensor networks and implementation of 4G communication systems. In the proposed project we will devise novel ultra-low power signal processing and hardware design techniques enabling a significant advance in wireless communication technology. The novel algorithms can be applied in home networks, irrigation in agriculture, environment monitoring and 4G wireless communication systems. Read moreRead less
Signal Concentration, Robust Signal Processing and Information Theory on the Unit Sphere. This project will assist Australia in maintaining and elevating its international research role in the development of breakthrough signal processing techniques applied to mobile communication, geodesy, astronomy, defence and surveillance, and acoustic modeling of human hearing. The project's high impact contributions will advance Australia's knowledge base and through its applications attract industry inte ....Signal Concentration, Robust Signal Processing and Information Theory on the Unit Sphere. This project will assist Australia in maintaining and elevating its international research role in the development of breakthrough signal processing techniques applied to mobile communication, geodesy, astronomy, defence and surveillance, and acoustic modeling of human hearing. The project's high impact contributions will advance Australia's knowledge base and through its applications attract industry interest particularly in the development of improved instrumentation. The publication of outcomes will elevate Australia's research reputation. The project provides high quality research training for gifted postgraduate students and postdoctoral researchers.Read moreRead less
New Approaches for Wireless Implantable Biomedical Devices. Wireless biomedical implants of the future will interface with biological systems to perform physiological tasks such as vision restoration, reanimation of paralyzed limbs, and chemical sensing. The potential benefit to society will come not only from alleviating human suffering and improving quality of life, but also by reducing the health care costs now directed to assist people with disabilities such as blindness, stroke and spinal-c ....New Approaches for Wireless Implantable Biomedical Devices. Wireless biomedical implants of the future will interface with biological systems to perform physiological tasks such as vision restoration, reanimation of paralyzed limbs, and chemical sensing. The potential benefit to society will come not only from alleviating human suffering and improving quality of life, but also by reducing the health care costs now directed to assist people with disabilities such as blindness, stroke and spinal-cord injury survivors. Using similar technologies, cochlear implants have already restored functional hearing to over 100,000 deaf patients around the world. The outcomes of the project can also be applied to a variety of other applications such environmental monitoring, security and identification systems. Read moreRead less