High-Performance Microwave and Millimetre Wave Antennae Based on Multi-layer Periodic Structures. Broadband communication has created a rapidly growing market for innovative microwave communication systems such as WiFi and WiMAX. Millimetre-wave technology is expected to deliver the next leap in communication technology with much faster wireless links for 3D TV etc. By developing innovative, low-cost, planar antennas with high performance, the proposed research will create opportunities for Aust ....High-Performance Microwave and Millimetre Wave Antennae Based on Multi-layer Periodic Structures. Broadband communication has created a rapidly growing market for innovative microwave communication systems such as WiFi and WiMAX. Millimetre-wave technology is expected to deliver the next leap in communication technology with much faster wireless links for 3D TV etc. By developing innovative, low-cost, planar antennas with high performance, the proposed research will create opportunities for Australian industry to compete in this growing global market with advanced, cost-effective, microwave and millimetre-wave products. The Australian research community will benefit from new methods, techniques and trained researchers, while Australian consumers will benefit from improved quality and low cost of services.Read moreRead less
Hybrid-resonator antennas for wireless communication networks. The rapid emergence of modern wireless communication systems has led to a requirement for small, lightweight antennas. In this project, a new, broadband, low-cost, small and lightweight antenna architecture will be developed for wireless systems. The new architecture is based on a novel hybrid-resonator concept: a dielectric resonator tightly coupled to a metal patch resonator. The rapid design and optimisation of new antennas will b ....Hybrid-resonator antennas for wireless communication networks. The rapid emergence of modern wireless communication systems has led to a requirement for small, lightweight antennas. In this project, a new, broadband, low-cost, small and lightweight antenna architecture will be developed for wireless systems. The new architecture is based on a novel hybrid-resonator concept: a dielectric resonator tightly coupled to a metal patch resonator. The rapid design and optimisation of new antennas will be achieved by developing several new theoretical methods. Antennas targeted for the Unlicensed National Information Infrastructure (UNII) band (5-6 GHz) commercial wireless communication systems will be designed, fabricated, tested and integrated with the systems.
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Broadband and Multiband Antenna Systems. Wireless communication has become essential in the modern information society and this has created a rapidly growing, multi-billion dollar market for innovative wireless products. Australia has a strong potential to gain from this market, as demonstrated by world-leading products, e.g. wireless computer microchips. By developing innovative antenna systems with new capabilities, the proposed research will create opportunities for Australian industry to com ....Broadband and Multiband Antenna Systems. Wireless communication has become essential in the modern information society and this has created a rapidly growing, multi-billion dollar market for innovative wireless products. Australia has a strong potential to gain from this market, as demonstrated by world-leading products, e.g. wireless computer microchips. By developing innovative antenna systems with new capabilities, the proposed research will create opportunities for Australian industry to compete in the global wireless market with advanced, low-cost, high-performance, and universal products. The Australian research community will benefit from new theoretical techniques and trained researchers, while wireless users will benefit from improved quality and low cost of services.Read moreRead less
Radio Frequency Microelectromechanical Systems for Wireless Communications. Current and future Wireless appliances require increased functionality, frequency of operation, and component integration along with reduced manufacturing costs, size, weight, and power consumption. Micro electro mechanical systems for radio frequency with versatility to integrate both electronic (2-D) and microelectro-mechanical (3-D) devices represent the technology that can offer wide operational bandwidths, on-chip p ....Radio Frequency Microelectromechanical Systems for Wireless Communications. Current and future Wireless appliances require increased functionality, frequency of operation, and component integration along with reduced manufacturing costs, size, weight, and power consumption. Micro electro mechanical systems for radio frequency with versatility to integrate both electronic (2-D) and microelectro-mechanical (3-D) devices represent the technology that can offer wide operational bandwidths, on-chip passive components, negligible interconnections, almost ideal switches and resonators, in a planar fabrication process, compatible with existing integrated circuits and monolithic microwave integrated circuits. The outcomes of this project will be of significant benefit to the Australian Telecommunication industry.Read moreRead less
Radio Frequency Micro Electro Mechanical Systems Switch Applications for Reconfigurable Multifunctional Communication Systems. Recent advances in modern ultra wideband radar and wireless communications applications demanded high performance and reconfigurable Radio Frequency subsystems that simplify multiple complex functions using common hardware. These trends impose drastic requirements on passive and active devices. The reported performance of Radio Frequency Micro Electro Mechanical System ....Radio Frequency Micro Electro Mechanical Systems Switch Applications for Reconfigurable Multifunctional Communication Systems. Recent advances in modern ultra wideband radar and wireless communications applications demanded high performance and reconfigurable Radio Frequency subsystems that simplify multiple complex functions using common hardware. These trends impose drastic requirements on passive and active devices. The reported performance of Radio Frequency Micro Electro Mechanical Systems (RF MEMS) switches, with extremely low loss and high isolation, microsopic, have lead to their applications in reconfigurable circuits. The proposal deals with the development of RF MEMS based reconfigurable devices that will enable flexible interconnections between various ports and channels and optimize the usage of bandwidth. The outcomes of this project will be of significant benefit to the Australian Telecommunication industry.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE180100003
Funder
Australian Research Council
Funding Amount
$318,900.00
Summary
Vector network analyser suite for advanced terahertz materials and devices. This project aims to establish terahertz measurement capabilities to further Australia's strength and momentum in terahertz research. This will comprise of two terahertz extension modules, working with a dedicated vector-network analyser, and high-precision probes and probe station. The project will enable point-feeding, monochromatic, coherent, and fine spectral-resolution measurement at an atmospheric window of 220-330 ....Vector network analyser suite for advanced terahertz materials and devices. This project aims to establish terahertz measurement capabilities to further Australia's strength and momentum in terahertz research. This will comprise of two terahertz extension modules, working with a dedicated vector-network analyser, and high-precision probes and probe station. The project will enable point-feeding, monochromatic, coherent, and fine spectral-resolution measurement at an atmospheric window of 220-330 GHz. The capabilities are essential for development of two-dimensional materials, active components, waveguides, and antennas towards a common goal of efficient integrated terahertz devices and systems. The project will serve emerging terahertz applications including standoff imaging and short-range high-speed data transmission. This will have broad impact in the areas of surveillance, biomedicine, security, and public safety and well-being.Read moreRead less
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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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
Thin antenna beam steering systems with exceptional performance. This project aims to develop a revolutionary antenna beam steering method. A high-gain antenna with the ability to steer its pencil beam to any direction in two-dimensions within a wide range is an essential part in many telecommunication and defence systems. The project expects to produce compact, low-cost antenna systems with high performance, to circumvent the limitations of existing methods in applications such as providing int ....Thin antenna beam steering systems with exceptional performance. This project aims to develop a revolutionary antenna beam steering method. A high-gain antenna with the ability to steer its pencil beam to any direction in two-dimensions within a wide range is an essential part in many telecommunication and defence systems. The project expects to produce compact, low-cost antenna systems with high performance, to circumvent the limitations of existing methods in applications such as providing internet connectivity to those who are unconnected or poorly connected, or data transfer from satellites to earth stations. The proposed technology should significantly improve internet services in regional Australia and connect billions of people worldwide who do not have regular internet access at present.Read moreRead less