Strategies for mid-air collision avoidance in aircraft: lessons from bird flight. Birds seldom collide with each other and other objects, despite the high speeds at which they fly in complex environments. This project will examine how birds sense and avoid impending collisions, and will use these results to design novel strategies for the detection and avoidance of aircraft mid-air collisions.
Pharmacological modification of retinal and visual function and relation to control of refractive error. Myopia (short-sightedness) affects many hundreds of millions of people worldwide and can lead to blindness. Drug treatments that prevent myopia are being developed, however there is no efficient way of determining who is at risk of myopia or who will benefit from these treatments. This fundamental research project will determine the retinal and visual effects of pharmacologic agents that inhi ....Pharmacological modification of retinal and visual function and relation to control of refractive error. Myopia (short-sightedness) affects many hundreds of millions of people worldwide and can lead to blindness. Drug treatments that prevent myopia are being developed, however there is no efficient way of determining who is at risk of myopia or who will benefit from these treatments. This fundamental research project will determine the retinal and visual effects of pharmacologic agents that inhibit myopia, with the aim of determining an ocular measure that is related to myopia, which is altered by drugs that are known to slow myopia progression, and that could be used as an indication of an agent's likely effectiveness.Read moreRead less
Improved effectiveness of cochlear implants through new simultaneous stimulation techniques. Cochlear implants have brought the gift of hearing to 250,000 people worldwide and are an excellent example of Australian innovation. This project will examine an improved "high fidelity" stimulation strategy with the objective of defining a safe stimulus range for clinical use and providing a commercial advantage for Cochlear Ltd.
Deep Downunder: designing a deep-sea exploration and discovery capability for Australia. Exploration of the deep-sea with the modern technologies to be developed by Deep-Downunder is a first for Australia. We aim to explore and discover life at depths from 50-3000m off The Great Barrier Reef, around the seamounts of Lord Howe Island and Tasmania and in the deep canyons of WA and SA. We expect to discover new species, hope for a glimpse of giant squid at home and will answer specific questions on ....Deep Downunder: designing a deep-sea exploration and discovery capability for Australia. Exploration of the deep-sea with the modern technologies to be developed by Deep-Downunder is a first for Australia. We aim to explore and discover life at depths from 50-3000m off The Great Barrier Reef, around the seamounts of Lord Howe Island and Tasmania and in the deep canyons of WA and SA. We expect to discover new species, hope for a glimpse of giant squid at home and will answer specific questions on Australia's ocean biology, fisheries and biotechnology never before approachable. To be effective guardians of Australian waters we must learn what lies in the depths we can't see from a boat.Read moreRead less
Colour vision in birds: consequences to fatal collisions with wind farms. Wind-farms represent a key component of sustainable energy generation world-wide. However, many birds die as a result of collisions with wind-farms, posing an unsolved and controversial conservation issue. The proliferation of wind-farms in Australia will exacerbate the problem. Birds rely on vision to negotiate static and moving objects. Wind-farms, currently coloured to meet human aesthetic criteria, may be 'invisible' t ....Colour vision in birds: consequences to fatal collisions with wind farms. Wind-farms represent a key component of sustainable energy generation world-wide. However, many birds die as a result of collisions with wind-farms, posing an unsolved and controversial conservation issue. The proliferation of wind-farms in Australia will exacerbate the problem. Birds rely on vision to negotiate static and moving objects. Wind-farms, currently coloured to meet human aesthetic criteria, may be 'invisible' to birds since they see colours differently from humans. We will determine bird spectral sensitivities and compare them to the spectral reflectance of wind-farms. We will then develop modifications improving the visibility of wind-farms to birds, thereby reducing fatalities.Read moreRead less
Using the eye as a window to the central nervous system for improved drug testing. The annual cost of treating brain illnesses is US$250 billion. Each new drug costs about US$900 million to develop. This research will give Pfizer Pty Ltd, the project’s industry partner, a more efficient and direct way of testing whether drugs can get into and affect the brain. This will reduce the cost of drug development, which ultimately means cheaper drugs. The project will develop new technologies to put Aus ....Using the eye as a window to the central nervous system for improved drug testing. The annual cost of treating brain illnesses is US$250 billion. Each new drug costs about US$900 million to develop. This research will give Pfizer Pty Ltd, the project’s industry partner, a more efficient and direct way of testing whether drugs can get into and affect the brain. This will reduce the cost of drug development, which ultimately means cheaper drugs. The project will develop new technologies to put Australia at the forefront of neuropharmaceutical and neuroscience research. A new research platform will foster collaborations with the pharmaceutical industry both within Australia and overseas. This industrial link will promote a unique post-graduate experience by providing exposure to academic and industrial environments for Australian scientists.Read moreRead less
Micromachined electrode arrays for improved performance and manufacturability of cochlear neuroprostheses. The cochlear implant for the deaf, and bionic eye for the blind are two devices where Australian researchers possess considerable expertise. Benefit can be had from collaborative research between these non-competing scientific fields. Microelectrodes is an area wherein overcoming the unique requirements of one field offers new opportunities in the other. We aim to enhance Australia's leader ....Micromachined electrode arrays for improved performance and manufacturability of cochlear neuroprostheses. The cochlear implant for the deaf, and bionic eye for the blind are two devices where Australian researchers possess considerable expertise. Benefit can be had from collaborative research between these non-competing scientific fields. Microelectrodes is an area wherein overcoming the unique requirements of one field offers new opportunities in the other. We aim to enhance Australia's leadership in cochlear implants by applying decade-long research on electrode fabrication techniques for the bionic eye into 3D shapes for the cochlea. Furthermore, we aim to further improve the effectiveness, safety and reliability of the cochlear implant while facilitating increased electrode numbers.Read moreRead less
Chronic pain and functional impairment following traumatic injury: an investigation into the impact of compensation status and experience. This project will enhance understanding of the impact of the psychosocial factors and the compensation process on recovery from traumatic injury. The project will generate new resources (screening and referral guidelines; educational materials) to improve decision making consistency, client experience, and recovery from road trauma.
Vision and remote sensing: using nature's technology to examine the health of The Great Barrier Reef and Moreton Bay. We aim to use what is known and what we will discover about animals visual systems to examine environmental health on The Great Barrier Reef and Moreton Bay. Technology and knowledge from 8 university departments, 4 industry partners, and 7 international collaborators will be combined to both learn and provide information. The innovative aspect of our approach is to examine the w ....Vision and remote sensing: using nature's technology to examine the health of The Great Barrier Reef and Moreton Bay. We aim to use what is known and what we will discover about animals visual systems to examine environmental health on The Great Barrier Reef and Moreton Bay. Technology and knowledge from 8 university departments, 4 industry partners, and 7 international collaborators will be combined to both learn and provide information. The innovative aspect of our approach is to examine the world with the eyes of birds, fish and invertebrates. Tricks animals employ to solve visual tasks will be implemented at scales of instrumentation from hand-held to remote sensing and used to address problems such as coral reef bleaching.Read moreRead less
Auditory and Vestibular Ringing--Detection and theraputic interventions. Tinnitus effects up to 30% of the elderly population. To date no single suppression modality has been successful across all tinnitus sufferers. This study will apply an aural, low level, modulated, fractal suppression strategy designed to induce a "natural" olivary efferent response capable of suppressing/reducing tinnitus.
Balance disorders e.g. Meniere's Disease and nausea (seasickness) are unwanted outcomes of vestibu ....Auditory and Vestibular Ringing--Detection and theraputic interventions. Tinnitus effects up to 30% of the elderly population. To date no single suppression modality has been successful across all tinnitus sufferers. This study will apply an aural, low level, modulated, fractal suppression strategy designed to induce a "natural" olivary efferent response capable of suppressing/reducing tinnitus.
Balance disorders e.g. Meniere's Disease and nausea (seasickness) are unwanted outcomes of vestibular dysfunction/hypersensitivity. This study will apply a low level, low frequency, modulated, acoustic pressure wave designed to induce a ?natural? olivary efferent response and an end organ endolymph/perilymph balance shift. It is postulated these stimuli will reduce the effects of vestibular dysfunction/hypersensitivity.
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