Grants & Opportunities

Efficient privacy-preserving proofs for secure e-government and e-voting. Electronic systems are becoming increasingly widespread and crucial to social and economic wellbeing. This project aims to ensure that e-government, e-health, e-commerce and e-voting are secure and trustworthy by inventing new ways to verify these systems without infringing privacy. This project expects to use innovative techniques from cryptography to support development of trustworthy systems. Expected outcomes of this project include better support for organisations to build trustworthy systems that will maximise benefit to Australian business and society. This should provide significant commercial, reputational, and societal benefits by avoiding disruptions to the organisations and their clients if and when they are attacked. . Scheme: Discovery Early Career Researcher Award. Field: 0803 - Computer Software. Lead: Dr Thomas Haines

Life without Birth: The Ethics, Politics, and Law of Artificial Wombs. This project aims to assess the morality of ectogenesis, the process of gestating a foetus in an artificial womb. Recent technological advances in non-human ectogenesis raise the question of whether it is desirable to pursue research in human ectogenesis. This project expects to generate new knowledge in social philosophy by inquiring into the value of natural gestation, the foundations of parenthood, and the interests of foetuses during gestation. Expected outcomes of this project include an improved understanding of the costs, risks, and benefits of ectogenesis. This should provide significant benefits, such as resources for ethical decision-making in light of technologies aimed at radically reshaping the process of human creation. . Scheme: Discovery Early Career Researcher Award. Field: 2203 - Philosophy. Lead: A/Prof Luara Ferracioli

No place like home? A phenomenology of racialised non-belonging. Racism is a persistent problem in Australian society, yet its existential effects remain inadequately understood. This project aims to develop a new understanding of racism’s deep impact on one’s sense of self, and sense of place. The project seeks to use the emerging framework of critical phenomenology to illuminate different experiences of racialised non-belonging. Expected outcomes include an improved understanding of the ontological significance of feeling not at home in one’s environs, or in one’s own body. This expanded understanding will provide significant benefits by helping to motivate and guide more robust models of anti-racism in public life, leading to a more racially just society.. Scheme: Discovery Early Career Researcher Award. Field: 2203 - Philosophy. Lead: Dr Helen Ngo

Re-imagining Humanities through Indigenous Creative Arts. This project will develop an Indigenous Creative Arts Framework to reimagine and transform the Humanities across Australian Universities. It will engage Indigenous creative arts academics, scholars, curators, practitioners and communities to conceptualise new innovations in teaching, research, community engagement and ethics. This project will centre critical Indigenous ways of knowing, being and doing; contribute new Indigenous research methodologies and restorative practices; and reframe knowledge through creative arts praxis. Such innovative and dynamic advances in research will recognise and grow Indigenous capacity building across the Humanities, as vital to cultural wellbeing for all Australians. . Scheme: Discovery Indigenous. Field: 2002 - Cultural Studies. Lead: A/Prof Ali Baker

Making Australia resilient to airborne infection transmission. The COVID-19 pandemic demonstrated that basic questions regarding how to minimise the risk of airborne infection transmission for any respiratory viruses remain unanswered, despite their frequency and huge social and economic costs. Therefore, this project aims to expand scientific knowledge and develop practical tools to improve the resilience of Australian indoor environments against airborne transmission of respiratory viruses. The outcomes of the project conducted by a multidisciplinary international team of collaborators will include: (i) quantitative knowledge on virus-laden aerosols from human expiration; and (ii) exposure and infection risk models and their application to typical indoor building and transport scenarios.. Scheme: Linkage Projects. Field: 1117 - Public Health and Health Services. Lead: Prof Lidia Morawska

Discovering the origin of gravitational waves. This project aims to discover the astrophysical origin of gravitational waves. This project expects to calculate the properties of neutron stars and black holes in binaries, using state-of-the-art simulations performed on the largest Australian supercomputers. Expected outcomes of this project include comparisons between gravitational-wave observations and theory using advanced statistical and machine learning techniques, providing new and unique insights into the most massive stars in the Universe. This project should provide significant benefits such as answering key questions about the Universe, cementing Australia's place in the international astronomical community and inspiring and training future generations of Australia's workforce.. Scheme: Discovery Early Career Researcher Award. Field: 0201 - Astronomical and Space Sciences. Lead: Dr Simon Stevenson

Engineering safer pastures for livestock. This project aims to develop subterranean clover with elevated condensed tannins in leaves. This important pasture legume is currently a bloat risk for cattle and sheep due to low condensed tannins and high soluble proteins. Bloat is a health issue that costs the Australian and New Zealand livestock industries over $200 million per annum. Condensed tannins can reduce bloat, decrease methane production and improve efficiency of production. A novel approach using CRISPR and other innovative molecular techniques will generate breeding lines high in condensed tannins and deliver knowledge applicable to other pasture legumes. Expected outcomes for livestock producers include improved animal welfare, reduced carbon emissions and enhanced profits.. Scheme: Linkage Projects. Field: 1001 - Agricultural Biotechnology. Lead: Prof Jacqueline Batley

Sustaining intensive agriculture through droughts and floods. This project aims to develop state-of-the-art conceptual and numerical models of river-soil-groundwater interactions to address complex and persistent questions on water sustainability in the Lower Burdekin Delta, Queensland, where groundwater pumping to irrigate sugarcane has been supplemented by artificial recharge for over 50 years. This project expects to deliver new knowledge of critical aquifer processes to inform the scheme operation, the largest in the country. Expected outcomes include ground-breaking management plans for the aquifer-replenishment scheme. Anticipated benefits involve balancing the needs of agriculture and the protection of pristine environments, including groundwater discharge to the Great Barrier Reef. . Scheme: Linkage Projects. Field: 0406 - Physical Geography and Environmental Geoscience. Lead: Prof Adrian Werner

Constructing a rich curriculum for all: ‘Insights into practice’ . Not all students in Australia have access to the same high quality curriculum. The curriculum is often differentiated in ways designed to make outcomes achievable for marginalised young people. While this is often well meant, it has worked against the interests of these young people by denying them from a young age the same levels of access to curriculum options as their peers. This narrows the range of their future opportunities. This project aims to provide the foundations for strategies that can be implemented by teachers, schools and systems to address this problem. This projects works closely with teachers to determine a framework that can encourage pedagogical approaches that make a rich curriculum accessible to all. . Scheme: Linkage Projects. Field: 1302 - Curriculum and Pedagogy. Lead: Prof Martin Mills

Wearable thermoelectric textiles for portable microelectronics. Wearable thermoelectrics enable the power generation from the temperature difference between human body and ambient temperature by using thermoelectric effect. This project aims to design eco-friendly wearable thermoelectric textiles to realize high-efficiency solid-state power generation and meet individual needs with human comfort and health. The target is to achieve a power density in the as-designed thermoelectric textiles by the optimization of materials and device design. The outcome will open up a new platform for the green and sustainable charge for portable microelectronics, which will lead to an innovative technology for energy management, which will place Australia at the forefront of wearable electronics and textile industry.. Scheme: Linkage Projects. Field: 0912 - Materials Engineering. Lead: Prof Zhi-Gang Chen

Understanding the neural dynamics of integrated perceptual decisions. This project aims to characterise the brain processes involved in perceptual decision-making. While scientists have a good understanding of how people make decisions about the properties of individual sensory inputs, much less is known about how the brain integrates information across multiple sensory sources that differ in their salience and fidelity. The project expects to elucidate the neural mechanisms responsible for these integrative perceptual decisions, using a combination of brain imaging and behavioural measures, computational modelling and real-time neurofeedback. This should provide significant benefits for developing more effective approaches to training individuals in professions that rely on optimal decision-making skills.. Scheme: Discovery Projects. Field: 1701 - Psychology. Lead: Prof Jason Mattingley

Passive biofiltration processes for nitrogen removal from polluted waters. Traditional urban wastewater treatment is energy and resource demanding. By combining principles of Water Sensitive Urban Design (WSUD) with advanced pollutant removal processes, we will create necessary knowledge to underpin development of novel sustainable urban water treatment systems. This project aims to understand and utilise Simultaneous Nitrification, Anammox and Denitrification (SNAD) processes within passive plant-soil-based biofilters for cost-effective removal of nitrogen from a range of polluted urban water sources. The project will open a potential for a new technological advancements in urban water management, while simultaneously providing benefits to the environment and community through greening and waterway protection.. Scheme: Discovery Projects. Field: 0905 - Civil Engineering. Lead: Prof Ana Deletic

Metal Halide Perovskite Spin-Orbit Torque Devices. This project aims to demonstrate a new, highly efficient spin-based electronic device by developing a fundamental understanding into the generation and transport of spin in metal halide perovskite based heterostructures. Using an interdisciplinary approach, this project expects to exploit the beneficial spin properties, low cost and scalable production methods of metal halide perovskites. It is expected that this project will deliver new functionality to these emerging materials to enable their application in highly efficient spintronic devices. These outcomes should provide significant benefits to the Australian advanced manufacturing sector by developing new knowledge, advanced technology and training skilled professionals.. Scheme: Discovery Projects. Field: 0204 - Condensed Matter Physics. Lead: Prof Jacek Jasieniak

Anomalous Structural Response in Porous Framework Materials. This project targets a key missing link in understanding the host-guest properties of porous framework materials, namely, the dynamic response of host lattices to their external environment and to the inclusion of molecular guests. By combining advanced chemical, physical and structural measurements the project expects to provide the first concerted picture of materials behaviour across an array of scientific and technological settings, with particular focus given to industrially relevant ‘real world’ conditions. This promises to greatly inform the on-going chemical design, formulation and process engineering of these materials, in turn accelerating their development in gas separation, energy storage and device componentry applications.. Scheme: Discovery Projects. Field: 0306 - Physical Chemistry (Incl. Structural). Lead: Prof Stephen Moggach

A Concurrent Multiscale Model for Improved Prediction of Drying Process. This project aims to develop an innovative multiscale model for food drying, which integrates spatial and temporal nonlinear behaviours at different scales. The proposed unifying theory will capture dynamic micro level features and upscale them to macro level features through a concurrent bridging scheme. As cellular elements critically govern the drying process, the fundamental understanding captured through this theory will lead to more accurate prediction of drying kinetics, deformation and quality changes, and hence the development of efficient drying systems. This project will overcome a longstanding research problem and position Australia at the forefront in world drying research to reap substantial economic benefits for Australia.. Scheme: Discovery Projects. Field: 0908 - Food Sciences. Lead: Prof Azharul Karim

Tackling the computational bottleneck in precision particle physics. This project aims to deliver a breakthrough technique in theoretical-computational particle physics, with significant potential for high-precision applications. The project targets some of the most advanced and resource-intensive calculations in particle physics, which are widely used but currently limited by extremely high computational resource requirements. This project expects to develop a novel approach that will vastly reduce the computational complexity while at the same time improving their accuracy relative to the current global state of the art. Expected outcomes include the new methodology itself as well as a full-fledged and open-access simulation code based on it, which should be highly efficient.. Scheme: Discovery Projects. Field: 0202 - Atomic, Molecular, Nuclear, Particle and Plasma Physics. Lead: Prof Peter Skands

A novel quantitative risk assessment framework for fractured rock slopes. Rock slope instabilities present grave risks to life and to the serviceability of major Australian infrastructure such as mines, roads and railways, and to coastal recreation areas. This project aims at developing tools for the quantitative risk assessment of fractured rock slopes based on rigorous rock mechanics, numerical methods and probabilistic methods. The research outcomes will improve our understanding of natural and engineering rock slopes, reduce the uncertainties in the prediction of the safety of infrastructures, and thus minimize the loss and damage. The research outcomes can also be used to maintain workplace safety in mining environments and avoid disruptions to production. . Scheme: Discovery Projects. Field: 0905 - Civil Engineering. Lead: Prof Jinsong Huang

New methods for modelling real-world extremes. This project aims to develop new theory and methods for analysing and predicting extreme values observed in real-world processes. Many existing techniques are limited by convenient mathematical assumptions that commonly do not hold in practice: dependence at asymptotic levels, process stationarity, and that the observed data are direct measurements of the process of interest. As a result, using these techniques may produce undesirable results. Expected outcomes of this project include theoretically justified data analysis techniques that can accurately model extreme values seen in the real world. Project benefits include more realistic analyses of nationally important applications in climate, bushfire insurance risk, and anomaly detection.. Scheme: Discovery Projects. Field: 0104 - Statistics. Lead: Prof Scott Sisson

Ancestral state reconstruction and the evolution of Australian marsupials. This project aims to investigate the diversification and evolvability of Australian marsupials, by enabling genomes, ecology and 3D skeletal shape to synergistically inform evolutionary inference. This project expects to generate new knowledge of the processes that have promoted and maintained marsupial biodiversity, by tracing their evolution across a fossil gap that spans half of their history. Expected outcomes of this project include improved methods for merging fossils into the tree of life and for reconstructing the ecology and morphology of ancestors on phylogenetic trees. This should provide significant benefits, such as a coherent evolutionary context for informing research on marsupial biology, ecology and conservation.. Scheme: Discovery Projects. Field: 0603 - Evolutionary Biology. Lead: Prof Matthew Phillips

Towards predictive 4D computational models for the heart. This project aims to develop novel high-performance numerical algorithms for multiscale and multiphysics PDEs with dynamic interfaces, the development and analysis of a novel PDE system modelling the electromechanics of heart and torso, and the combination of these numerical techniques and models to deliver predictive tools for patient-specific simulations of the cardiac function. It involves the design and mathematical analysis of space-time variational discretisations on embedded meshes, 4D computational geometry algorithms for numerical integration and multilevel solvers. By combining scientific computing and machine learning, one anticipated outcome of this research is a new generation of nonlinear PDE approximations and solvers.. Scheme: Discovery Projects. Field: 0103 - Numerical and Computational Mathematics. Lead: Prof Santiago Badia

Artificial Intelligence, Robots, and Agriculture: Social and ethical issues. This project aims to investigate the social and ethical issues raised by the use of artificial intelligence and robotics in agriculture. By combining social science research methods and philosophical analysis, the project aims to generate new knowledge in bioethics and applied ethics. Expected outcomes of this project include an account of the social and ethical issues farmers, rural communities, and consumers anticipate arising from these technologies, improved understanding of these issues, and an account of how these groups would like to see these issues addressed. This should help Australia benefit from the responsible use of artificial intelligence and robotics in agriculture.. Scheme: Discovery Projects. Field: 2201 - Applied Ethics. Lead: Prof Robert Sparrow

Micro-electrofluidic platforms for monitoring 3D human biological models. The ability to study living cells and human biological models (cell cultures) delivers greater understanding of basic biological function and response to applied (bio)chemical stimuli. Creating the physical environments to sustain biological models, and mimic natural conditions and fluidic pathways, is immensely challenging, yet essential to deliver meaningful observational data. This project will deliver this capability through the convergence of expertise and innovation in analytical chemistry, materials science and cellular biology, ultilising the latest technology and understanding of 3D micro/electrofluidics, to enable the study and stimulation of advanced biological models, sustained within precisely controlled 3D micro-environments.. Scheme: Discovery Projects. Field: 0903 - Biomedical Engineering. Lead: Prof Brett Paull

The Role of Energy Absorbing Rubber Grid on Ballast Track Performance. Breakage and excessive displacement of ballast lead to instability and regular maintenance of railways. The project aims to study the fundamental mechanics of ballast aggregates interacting with the apertures of recycled-Rubber Energy Absorbing Grids (REAG). The role of REAG on enhanced track performance by damping the cyclic wheel loading and impact will be quantified via rigorous mathematical methods complementing a computer-based numerical model and validated by laboratory & field data. When placed within the rail substructure REAG will enable reduced ballast movement and breakage while attenuating noise/vibration. The research outputs will facilitate improved rail track design enabling enhanced longevity and reduced cost of maintenance.. Scheme: Discovery Projects. Field: 0905 - Civil Engineering. Lead: Prof Buddhima Indraratna

The Holocaust as an Australian Story, 1933-1954: An Intimate History. This project intends to explore the connections between Australian and the Holocaust between 1933 and 1954. In doing so, the project will generate new ways of understanding how Jewish families and the community responded to, and actively resisted, Nazi genocide in Europe. Through detailed and micro-historical archival analysis, it will argue that the Holocaust was an event that both touched and changed Australia during a period of immense local transformation. The expected outcomes include a deeper understanding of the personal connections that have existed between parts of Australia's society and victims of genocides worldwide, and a new migrant and family-centred Australian history of the Holocaust.. Scheme: Discovery Projects. Field: 2103 - Historical Studies. Lead: A/Prof Jan Lanicek

Circadian photoreceptor sensitivity and impacts of modern lighting on sleep. Light has powerful non-visual effects, including effects on sleep. These non-visual effects are mediated by cells in the eye that are most sensitive to blue light. There are large individual differences in sensitivity to non-visual effects of light that are not understood and that would give great insight into suboptimal sleep, which has become widespread in modern society. This study will be the first systematic examination of individual differences in the effect of blue light on sleep and will uncover how alterations in the gene responsible for the effects of blue light on sleep (OPN4) contribute to these differences. This will lead to scalable individualised solutions to the unmet problem of how modern light environments impact sleep.. Scheme: Discovery Projects. Field: 1701 - Psychology. Lead: A/Prof Andrew Phillips