Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668506
Funder
Australian Research Council
Funding Amount
$150,000.00
Summary
A Multi-Axis Biomaterials Testing Facility. Damage to bones and joints, due to injury or diseases such as osteoporosis and arthritis, is a major cause of disability and cost to the nation. Australia's ageing population contributes not only to an increasing incidence of such conditions, but also to more patients out-living implants such as replacement joints. In 2001-2, Australia spent over $800 million on joint replacement. Because over 11% of procedures are revisions of failed implants, even sm ....A Multi-Axis Biomaterials Testing Facility. Damage to bones and joints, due to injury or diseases such as osteoporosis and arthritis, is a major cause of disability and cost to the nation. Australia's ageing population contributes not only to an increasing incidence of such conditions, but also to more patients out-living implants such as replacement joints. In 2001-2, Australia spent over $800 million on joint replacement. Because over 11% of procedures are revisions of failed implants, even small improvements in implant life represent significant cost savings. By accurately simulating conditions within the body, this biomechanical testing facility will lead to new developments in implant designs and materials, in turn improving quality of life, productivity and treatment costs.Read moreRead less
Image processing techniques for artificial human vision systems. Blindness affects millions of people worldwide and over 100,000 Australians. Our project supports quality of life improvements for them by developing image processing techniques necessary for artificial human vision systems: "bionic eyes". Our approach will extract the most visually informative content in a scene,allowing low resolution images to be generated which optimise usage of the limited number of eletrodes available in prot ....Image processing techniques for artificial human vision systems. Blindness affects millions of people worldwide and over 100,000 Australians. Our project supports quality of life improvements for them by developing image processing techniques necessary for artificial human vision systems: "bionic eyes". Our approach will extract the most visually informative content in a scene,allowing low resolution images to be generated which optimise usage of the limited number of eletrodes available in prototype bionic eye implants. Psychophysical tests presenting such modified images to normally sighted participants will verify the effectiveness of this approach. The techniques developed will provide a real-time image processing toolkit for visual protheses, with significant commercial and social benefits including enhancement of Australilia's neuroprostheses industry profile.Read moreRead less