Gigabit Wireless: Setting the Standard for Tomorrow's Broadband. This project will strengthen a long-term alliance between researchers at the University of Melbourne and NEC Australia, one of the few multinational research laboratories with significant R & D presence in Australia. Researchers at the University of Melbourne with expertise in communication theory fundamentals will collaborate with experienced research and design engineers at NEC, to produce fundamental research, and the resulting ....Gigabit Wireless: Setting the Standard for Tomorrow's Broadband. This project will strengthen a long-term alliance between researchers at the University of Melbourne and NEC Australia, one of the few multinational research laboratories with significant R & D presence in Australia. Researchers at the University of Melbourne with expertise in communication theory fundamentals will collaborate with experienced research and design engineers at NEC, to produce fundamental research, and the resulting design tools and intellectual property that will provide a new direction for wireless broadband access. The project will provide high-quality postgraduate and postdoctoral training in an area of great relevance to the Australian telecommunications industry.Read moreRead less
Wireless Cellular Connectivity for Large Scale Critical Applications. Fostered by continuous technology advances, a vision of the Industrial Internet is emerging, in which equipment, machines, and industrial robots are interconnected to each other and to the cloud, allowing remote control of industrial processes and critical infrastructure, to intelligently optimise their behaviour with minimal human intervention. Moving from the state-of-the-art small pilot projects to a global Industrial Inte ....Wireless Cellular Connectivity for Large Scale Critical Applications. Fostered by continuous technology advances, a vision of the Industrial Internet is emerging, in which equipment, machines, and industrial robots are interconnected to each other and to the cloud, allowing remote control of industrial processes and critical infrastructure, to intelligently optimise their behaviour with minimal human intervention. Moving from the state-of-the-art small pilot projects to a global Industrial Internet requires wireless systems with consistent high reliability, low latency and massive connectivity. In this project we will develop new communication-theoretic principles and technologies for wireless networks meeting the demands of critical industrial and infrastructure applications in the Industrial Internet era.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE180101134
Funder
Australian Research Council
Funding Amount
$368,446.00
Summary
Full-duplex wireless communication. This project aims to develop communication schemes that can enable wireless devices to simultaneously receive and transmit on the same frequency. Over the last century wireless devices have been operating inefficiently by using different frequencies for reception and transmission. The project aims to make wireless devices frequency efficient, and is expected to double the data rates of every wireless device in the world, and thereby contribute to significant i ....Full-duplex wireless communication. This project aims to develop communication schemes that can enable wireless devices to simultaneously receive and transmit on the same frequency. Over the last century wireless devices have been operating inefficiently by using different frequencies for reception and transmission. The project aims to make wireless devices frequency efficient, and is expected to double the data rates of every wireless device in the world, and thereby contribute to significant improvement of the capacity of future mobile networks.Read moreRead less