Radio Frequency Camera for Low-Complexity and High-Resolution Radar Imaging. This project aims to develop the theory and enabling techniques to realise a low-complexity and high-resolution radar imaging system with uncoordinated illumination. New scientific breakthroughs include fundamental radar imaging theory, advanced radio frequency frontend design and fast signal processing algorithms. These will lead to a paradigm shift in active and passive imaging technologies. A proof-of-concept prototy ....Radio Frequency Camera for Low-Complexity and High-Resolution Radar Imaging. This project aims to develop the theory and enabling techniques to realise a low-complexity and high-resolution radar imaging system with uncoordinated illumination. New scientific breakthroughs include fundamental radar imaging theory, advanced radio frequency frontend design and fast signal processing algorithms. These will lead to a paradigm shift in active and passive imaging technologies. A proof-of-concept prototype of the proposed imaging system with 77 GHz millimetre wave will be developed to demonstrate its feasibility and performance. The expected outcomes include Australia’s scientific and technological leadership in radar imaging and enhanced capability in emergency response, defence, public safety, and healthcare industries.Read moreRead less
Synthetic Aperture Radio Holography for High Resolution Remote Sensing. This project aims to develop fundamental theory and enabling technology for a novel radio remote sensing system using a breakthrough synthetic aperture radio holography concept. Such a system would leapfrog current capabilities to produce high-resolution, day-and-night and weather-independent 3-D images for many applications (eg geoscience and climate change research, environmental and agricultural monitoring, defence and se ....Synthetic Aperture Radio Holography for High Resolution Remote Sensing. This project aims to develop fundamental theory and enabling technology for a novel radio remote sensing system using a breakthrough synthetic aperture radio holography concept. Such a system would leapfrog current capabilities to produce high-resolution, day-and-night and weather-independent 3-D images for many applications (eg geoscience and climate change research, environmental and agricultural monitoring, defence and security-related target detection, and planetary exploration). Expected project outcomes include advanced sensing and data processing knowledge and a prototype demonstrating the developed analogue and digital hardware.Read moreRead less