Towards a high density silicon phase change memory device. This project builds upon our exciting recent findings that amorphous silicon can be transformed to a conducting crystalline phase following small-scale indentation. Furthermore the process is reversible as re-indentation can induce a transformation back to insulating amorphous silicon. This process appears to occur in extremely small (nanoscale) volumes of silicon. We plan to explore the viability of exploiting this behaviour to develo ....Towards a high density silicon phase change memory device. This project builds upon our exciting recent findings that amorphous silicon can be transformed to a conducting crystalline phase following small-scale indentation. Furthermore the process is reversible as re-indentation can induce a transformation back to insulating amorphous silicon. This process appears to occur in extremely small (nanoscale) volumes of silicon. We plan to explore the viability of exploiting this behaviour to develop an entirely new information storage system: a high-density silicon phase change memory. This project aims to study small-scale transformation behaviour in silicon and to design demonstrator memory devices based on both micro-electromechanical systems and solid state technologies.Read moreRead less
Fish-Bird: Autonomous Interactions in a Contemporary Arts Setting. This research aims to investigate and expand the dialogical possibilities that exist between multiple autokinetic objects within a new media arts environment. Communication between the objects, and with their audience, will be explored through the modalities of gesture, motion and written text. A new aesthetic framework for interactive artwork will be created through research into autokinesis and the behavioural patterns that evo ....Fish-Bird: Autonomous Interactions in a Contemporary Arts Setting. This research aims to investigate and expand the dialogical possibilities that exist between multiple autokinetic objects within a new media arts environment. Communication between the objects, and with their audience, will be explored through the modalities of gesture, motion and written text. A new aesthetic framework for interactive artwork will be created through research into autokinesis and the behavioural patterns that evolve between people and autokinetic machines. Outcomes will include a major artwork in three stages, underpinned by a robotics software tool set that facilitates composition and experimentation with autokinetic artwork.Read moreRead less
Hardware-based accelerators for real-time machine learning. This project will tackle the challenge of applying real-time machine learning to massive high-frequency data. This project will leverage advancements in machine learning and hardware synthesis to implement computationally complex machine-learning algorithms on hardware-accelerated platforms, avoiding overhead delays incurred by software running on a processor.
Performance Practice in New Interfaces for Realtime Electronic Music Performance. Results will be reported at national and international conferences both academic and commercial. Manuscripts will be prepared for submission to international refereed scholarly journals. Articles for rapid communication to a popular and commercial audience in areas of music technology, electronic arts, HCI and IT will also be prepared.
Technology platform for noninvasive measurement of intracranial pressure. The project aims to investigate a technology platform for noninvasive measurement of fluid pressure in the brain to improve assessment of brain function. Engineering approaches will aim to characterise the relationships between arterial and intracranial pressure from experimental data, computational models and signal processing of noninvasive blood pressure in the aorta, pressure in the eye and blood flow in brain and reti ....Technology platform for noninvasive measurement of intracranial pressure. The project aims to investigate a technology platform for noninvasive measurement of fluid pressure in the brain to improve assessment of brain function. Engineering approaches will aim to characterise the relationships between arterial and intracranial pressure from experimental data, computational models and signal processing of noninvasive blood pressure in the aorta, pressure in the eye and blood flow in brain and retinal vessels. Findings are expected to produce novel engineering advances in development of techniques and devices for intracranial pressure measurement, a procedure currently limited to high-risk invasive methods.Read moreRead less
Audio Nomad - A Location-based Handheld Audio Device for Sound-Art Applications. Audio Nomad is a cross-disciplinary project exploring location-aware, mobile audio devices for augmented audio reality systems. A unique and exciting combination of people and research in mobile devices, user interface design, spatial audio and streaming, spatial information systems, and positioning systems with new media arts and sound-art will create a handheld platform and design tools for use in culturally-signi ....Audio Nomad - A Location-based Handheld Audio Device for Sound-Art Applications. Audio Nomad is a cross-disciplinary project exploring location-aware, mobile audio devices for augmented audio reality systems. A unique and exciting combination of people and research in mobile devices, user interface design, spatial audio and streaming, spatial information systems, and positioning systems with new media arts and sound-art will create a handheld platform and design tools for use in culturally-significant applications. User-centred design embracing audio artists and content developers will create design tools for the emerging industry of virtual audio environments. Artists will be energised with new tools to create enriched and unique mobile audio user experiences for entertainment or productivity.Read moreRead less
Mobility and Location Information providing Social Equality for Blind and Vision Impaired persons. Providing reliable situational information to the blind and visually impaired (BVI) can deliver far greater independence. Confidence and autonomy will result from knowing where they are, what is in that location, how to go to the destination and the location related information. This will not only save a significant welfare costs but will also provide social equality to BVI. The underlying technolo ....Mobility and Location Information providing Social Equality for Blind and Vision Impaired persons. Providing reliable situational information to the blind and visually impaired (BVI) can deliver far greater independence. Confidence and autonomy will result from knowing where they are, what is in that location, how to go to the destination and the location related information. This will not only save a significant welfare costs but will also provide social equality to BVI. The underlying technology can also readily be extended to other socially useful and profitable applications.Read moreRead less
Design guidelines for safety-critical controllers in high-risk environments. This project aims to generate novel product design guidelines for developing safer controllers for use by potentially stressed individuals in high-risk situations. It will do this by generating specific insights and verifying generalisable solutions from the context of total artificial heart recipients –who must engage with critical controllers constantly. This project expects to generate new knowledge in design by esta ....Design guidelines for safety-critical controllers in high-risk environments. This project aims to generate novel product design guidelines for developing safer controllers for use by potentially stressed individuals in high-risk situations. It will do this by generating specific insights and verifying generalisable solutions from the context of total artificial heart recipients –who must engage with critical controllers constantly. This project expects to generate new knowledge in design by establishing a new research topic around an under-examined user cohort. Expected outcomes of this project include interaction design theory developments and improved controller design techniques. This should provide significant benefits and competitive advantages by lowering stress and improving safety across a range of contexts.Read moreRead less
Structures and Protocols for Inference. The proposed research is expected to lead to increased adoption and efficiency of use of machine learning technologies. It will develop new and better ways to use existing machine learning software in a manner that allows easier integration into commercial products. It will increase the competitiveness of Australian industry.
Spatial sound control for testing multi-channel audio devices. Spatial sound control for testing multi-channel audio devices. This project aims to test Alternative Listening Devices/Personal Sound Amplification Devices (PSAPs), multi-input audio devices fast replacing hearing aids due to their affordability and easy accessibility. With more consumers choosing PSAPs, proper testing is needed to assess the devices’ safety and benefit in real-life acoustic situations. This project will test PSAPs i ....Spatial sound control for testing multi-channel audio devices. Spatial sound control for testing multi-channel audio devices. This project aims to test Alternative Listening Devices/Personal Sound Amplification Devices (PSAPs), multi-input audio devices fast replacing hearing aids due to their affordability and easy accessibility. With more consumers choosing PSAPs, proper testing is needed to assess the devices’ safety and benefit in real-life acoustic situations. This project will test PSAPs in laboratory setups that use spatial audio processing techniques to mimic realistic acoustic environments, and develop theoretical frameworks to overcome existing limitations to accurate spatial sound reproduction. This research is expected to provide innovative solutions to safeguard Australia's future hearing health.Read moreRead less