Investigation of three dimensional terahertz computed tomography for biomedical applications. Terahertz (T-ray) imaging is an exciting newly emerging technology that can perform safe, non-invasive, imaging and chemical sensing at the same time. This research aims to achieve an advance in terahertz imaging by using advanced methods that will enhance our ability to achieve accurate detection of diseased tissue in vivo. Socio-economic benefits to Australia include: (i) contributions to terahertz sy ....Investigation of three dimensional terahertz computed tomography for biomedical applications. Terahertz (T-ray) imaging is an exciting newly emerging technology that can perform safe, non-invasive, imaging and chemical sensing at the same time. This research aims to achieve an advance in terahertz imaging by using advanced methods that will enhance our ability to achieve accurate detection of diseased tissue in vivo. Socio-economic benefits to Australia include: (i) contributions to terahertz systems, enhancing Australia's reputation for cutting-edge research; (ii) international collaboration will be strengthened; (iii) results will potentially lead to commercialisation opportunities; (iv) the outcomes will ultimately impact on improving terahertz imaging in quality control, medical diagnosis, and detection for national security.Read moreRead less
Low Power Architectures for the Wavelet Transform and JPEG2000. Recently a new international standard for image compression has been proposed, JPEG2000. This new method updates the well established JPEG standard and will be incorporated into digital cameras, web pads, etc.
In this project we will investigate low power architectures for the wavelet transforms used in this standard, and combine this with an embedded processor core to deliver a complete system on a chip solution for low power JPEG ....Low Power Architectures for the Wavelet Transform and JPEG2000. Recently a new international standard for image compression has been proposed, JPEG2000. This new method updates the well established JPEG standard and will be incorporated into digital cameras, web pads, etc.
In this project we will investigate low power architectures for the wavelet transforms used in this standard, and combine this with an embedded processor core to deliver a complete system on a chip solution for low power JPEG2000.Read moreRead less
Improved image analysis: maximised statistical use of geometry/shape constraints. This project will improve image analysis to apply such applications as 3D street-scape reconstruction, synthetic inserts into video for special effects, autonomous navigation, and scene understanding. It will do so by maximally exploiting the geometry of planar surfaces (e.g. walls) and straight lines and other simple geometric shapes.
Computer vision from a multi-structural analysis framework. Computer vision has applications in a wide variety of areas: security (video surveillance), entertainment (special effects), health care (medical imaging), and economy (improved automation and consumer products). This project will improve the accuracy and reliability of such applications. Advances will also lead to new products and industries.