Discovery Early Career Researcher Award - Grant ID: DE240100787
Funder
Australian Research Council
Funding Amount
$435,450.00
Summary
Multi-Beam and Beam-Scanning Antenna Arrays for Intelligent Wireless System. This project aims to develop and validate the fundamental theory and pioneering multi-beam and beam-scanning transmissive and reflective antenna arrays for intelligent wireless systems. Advanced engineering methodologies will be developed to address the related technical challenges. The expected outcomes are multi-beam antenna supporting frequency-polarization multiplexed communication and two-dimensional dual-beam scan ....Multi-Beam and Beam-Scanning Antenna Arrays for Intelligent Wireless System. This project aims to develop and validate the fundamental theory and pioneering multi-beam and beam-scanning transmissive and reflective antenna arrays for intelligent wireless systems. Advanced engineering methodologies will be developed to address the related technical challenges. The expected outcomes are multi-beam antenna supporting frequency-polarization multiplexed communication and two-dimensional dual-beam scanning systems with continuous scan capability over a wide angular range. The developed low-cost and fully passive antennas will significantly improve the information capacity of the wireless network, providing reliable and highly secure wireless communication.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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