Enabling wide area mm-wave mobile broadband networks. This project will define a new architecture and algorithms based around a network of access points with overlapping coverage that will support broadband, wide-area services to mobile users in mm-wave bands. The project will develop tools to characterise the information carrying capacity of this network, and tradeoffs between key parameters. The outcomes will be used by Mobile Network Operators in planning their deployments and developing thei ....Enabling wide area mm-wave mobile broadband networks. This project will define a new architecture and algorithms based around a network of access points with overlapping coverage that will support broadband, wide-area services to mobile users in mm-wave bands. The project will develop tools to characterise the information carrying capacity of this network, and tradeoffs between key parameters. The outcomes will be used by Mobile Network Operators in planning their deployments and developing their operations software to deliver diverse and flexible data services. The benefit will be an unlocking of radio spectrum beyond isolated hot spots, supporting vastly greater traffic densities and data rates worth billions of dollars to the economy.
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Integrated Sensing and Communication for 6G Wireless Networks. The project aims to investigate the open challenging research problems for realising high-speed sixth-generation wireless networks with seamless networked sensing capabilities via integrated sensing and communication (ISAC). The significance of this project is expected to generate new knowledge of ISAC exploiting advanced communication theory, signal processing theory and optimisation theory. Expected outcomes of this project include ....Integrated Sensing and Communication for 6G Wireless Networks. The project aims to investigate the open challenging research problems for realising high-speed sixth-generation wireless networks with seamless networked sensing capabilities via integrated sensing and communication (ISAC). The significance of this project is expected to generate new knowledge of ISAC exploiting advanced communication theory, signal processing theory and optimisation theory. Expected outcomes of this project include pragmatic robust beamforming, joint channel and sensing parameters estimation, resource allocation designs and a system-level analysis as the foundations and tools to unleash the full potential of ISAC. These should provide significant economic benefits to wireless service providers and mobile users worldwide.Read moreRead less
Intelligent Reflecting Surface-enabled High-speed 6G Wireless Networks. Intelligent reflecting surface (IRS) is a ground-breaking wireless technology essential for the development of future sixth-generation (6G) wireless communication networks. This project aims to develop fundamental communication theories and practical solutions to characterise and optimise IRS-based communication. The project expects to design novel channel estimation, robust beamforming, resource allocation and analytical fr ....Intelligent Reflecting Surface-enabled High-speed 6G Wireless Networks. Intelligent reflecting surface (IRS) is a ground-breaking wireless technology essential for the development of future sixth-generation (6G) wireless communication networks. This project aims to develop fundamental communication theories and practical solutions to characterise and optimise IRS-based communication. The project expects to design novel channel estimation, robust beamforming, resource allocation and analytical framework to address the significant scientific challenges for the development of IRS for enabling high-speed 6G networks. These outcomes are expected to contribute to a new type of wireless infrastructure which paves the way for building and transforming the Australian information and communications technology industries.Read moreRead less
Internet Timing for the Ages: Establishing the New Timekeeping System. All computers incorporate a software clock, essential to myriad software applications. An economic way to synchronize such clocks is over a network, however the approach the Internet currently depends upon is unreliable and vulnerable. This project aims to establish a new architecture for networked timekeeping, built on future-proofed fundamentals, that will for the first time address each of accuracy, reliability, and trust. ....Internet Timing for the Ages: Establishing the New Timekeeping System. All computers incorporate a software clock, essential to myriad software applications. An economic way to synchronize such clocks is over a network, however the approach the Internet currently depends upon is unreliable and vulnerable. This project aims to establish a new architecture for networked timekeeping, built on future-proofed fundamentals, that will for the first time address each of accuracy, reliability, and trust. The expected outcome is a national prototype, serving the public with accurate and trusted time, that will form the basis of the next generation timekeeping system for the Internet and the Internet of Things. Expected benefits include enhanced productivity across the digital economy, and resilience to GPS failures.Read moreRead less
Multi-beam Transmitarrays for Unmanned Aerial Vehicle Communications. This project aims to develop fundamental technologies for multi-beam conformal transmitarrays with independent beam steering capabilities for unmanned aerial vehicle (UAV) communications. Compared to current UAV antennas, the proposed antennas can be flush mounted to the body of UAVs, improving aerodynamic performance while also achieving significantly higher data rates for wireless connectivity. This project is expected to ge ....Multi-beam Transmitarrays for Unmanned Aerial Vehicle Communications. This project aims to develop fundamental technologies for multi-beam conformal transmitarrays with independent beam steering capabilities for unmanned aerial vehicle (UAV) communications. Compared to current UAV antennas, the proposed antennas can be flush mounted to the body of UAVs, improving aerodynamic performance while also achieving significantly higher data rates for wireless connectivity. This project is expected to generate scientific breakthroughs in many aspects of antenna research and enable UAVs to leverage big data technologies by transmitting/receiving large amounts of data, thus serving as a powerful tool for emergency management and for transforming many industry sectors, such as agriculture, food and water.Read moreRead less
Photonics Platform to Transform Mobile Fronthaul Infrastructure. Future wireless systems of mobile networks and defence platforms will need to offer high-speed, low-delay, reliable connectivity and high bandwidth. With the explosive growth of wireless systems, this creates significant challenges in fronthaul - the link connecting antennas with the signal processors and core network. This project aims to design and develop an innovative fronthaul for wireless systems based on a dynamically reconf ....Photonics Platform to Transform Mobile Fronthaul Infrastructure. Future wireless systems of mobile networks and defence platforms will need to offer high-speed, low-delay, reliable connectivity and high bandwidth. With the explosive growth of wireless systems, this creates significant challenges in fronthaul - the link connecting antennas with the signal processors and core network. This project aims to design and develop an innovative fronthaul for wireless systems based on a dynamically reconfigurable, software-defined photonic platform capable of meeting diverse requirements. The outcomes of this project will help build a scalable fronthaul solution to overcome fundamental challenges and realise cost-effective pathways for transforming how future wireless networks and defence platforms are realised.Read moreRead less
Resilient Remote Environment Emulation for Human-to-Machine Communication. Human-to-machine haptic communication allow humans to immersively interact with remotely-located robots/machines. Current networks cannot support its technical demands, thereby limiting the achievable human-machine distance. This project aims to develop cloudlet intelligence together with a programmable resilient network to realise reliable remote environment emulation, a concept where the physical environment at the remo ....Resilient Remote Environment Emulation for Human-to-Machine Communication. Human-to-machine haptic communication allow humans to immersively interact with remotely-located robots/machines. Current networks cannot support its technical demands, thereby limiting the achievable human-machine distance. This project aims to develop cloudlet intelligence together with a programmable resilient network to realise reliable remote environment emulation, a concept where the physical environment at the remote machine is emulated close to the human. A key outcome will be the first reliable remote environment emulation platform that achieves vast human-machine distances on current networks. Enabling immersive human-machine experience will significantly benefit many sectors, from education through to industrial manufacturing.Read moreRead less
Lattice Panel Based Optical Apertures for Optical Wireless Networks . Future work and homes will demand superfast wireless connectivity supported by optical fibre networks providing high speeds into our buildings. The technology gap, however, is a system to deliver this level of connectivity to our wireless mobile devices. Addressing this need, this innovative project proposes a novel architecture of lattice panel apertures based on arrays of phased arrays that can establish and steer multiple ....Lattice Panel Based Optical Apertures for Optical Wireless Networks . Future work and homes will demand superfast wireless connectivity supported by optical fibre networks providing high speeds into our buildings. The technology gap, however, is a system to deliver this level of connectivity to our wireless mobile devices. Addressing this need, this innovative project proposes a novel architecture of lattice panel apertures based on arrays of phased arrays that can establish and steer multiple optical beams simultaneously. It will investigate these system architectures, demonstrating their feasibility. By transforming broadband wireless into the future of optical mobile networking, the project outcomes will extend to every connected office and home, benefiting Australia’s economy and national security. Read moreRead less
Ultra-Fast and Secure Terahertz Communications for 6G Wireless Systems. This project aims to develop new theories and signal processing solutions for the cutting-edge technology of terahertz communications to enable the revolutionary sixth-generation wireless systems, by exploring and optimising the inherent benefits of the terahertz band. Anticipated outcomes are new analytical tools and practical guidelines for designing ultra-fast and secure wireless transmission at an unprecedented speed up ....Ultra-Fast and Secure Terahertz Communications for 6G Wireless Systems. This project aims to develop new theories and signal processing solutions for the cutting-edge technology of terahertz communications to enable the revolutionary sixth-generation wireless systems, by exploring and optimising the inherent benefits of the terahertz band. Anticipated outcomes are new analytical tools and practical guidelines for designing ultra-fast and secure wireless transmission at an unprecedented speed up to terabits per second (Tbps). This enables various emerging applications, such as holographic telepresence, Tbps WiFi and Tbps wireless data centres, to drive transformation in the telecommunications sector, boost industry productivity and support our intelligent information society in the 2030s.Read moreRead less
Overcoming nonlinearity in short-reach optical communication. This project aims to investigate the equalization methods for nonlinear optical channels applicable to short-reach optical communications. This project expects to significantly improve the transmission capacity of the cost-effective directly detected transceivers. Expected outcomes of this project include advanced equalization techniques for nonlinear channels and associated signal processing algorithms. These advances will have the p ....Overcoming nonlinearity in short-reach optical communication. This project aims to investigate the equalization methods for nonlinear optical channels applicable to short-reach optical communications. This project expects to significantly improve the transmission capacity of the cost-effective directly detected transceivers. Expected outcomes of this project include advanced equalization techniques for nonlinear channels and associated signal processing algorithms. These advances will have the potential to provide an enabling technology for surging capacity demand from cloud computing and enhance Australia's standing as a leader in optical communications technology.
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