Managing the risks posed by Artificial General Intelligence. It is widely acknowledged that a failure to implement appropriate controls for the next generation of Artificial Intelligence, Artificial General Intelligence (AGI), could have catastrophic consequences, including in the worst case - the extinction of the human race. This research aims to forecast the risks associated with AGI systems and identify the controls required to ensure that risks and existential threats are minimised. The exp ....Managing the risks posed by Artificial General Intelligence. It is widely acknowledged that a failure to implement appropriate controls for the next generation of Artificial Intelligence, Artificial General Intelligence (AGI), could have catastrophic consequences, including in the worst case - the extinction of the human race. This research aims to forecast the risks associated with AGI systems and identify the controls required to ensure that risks and existential threats are minimised. The expected outputs will provide designers, organisations, regulators and governments with a framework to support the design, implementation, and management of safe and efficient AGI systems. This will ensure that the potential far-reaching benefits of AGI are realised without undue threat to society.Read moreRead less
Sandwich Structures with Folded Core under Impact and Blast Loading. This project aims to support the development of new materials resistant to impacts. Novel sandwich panels making use of Miura-ori folded cores have superior performance relative to monolithic solid plates, in terms of stiffness and strength. They have great potential to be used in commercial and military vehicles as well as protective structures, which can be subjected to impact and blast loading. This project aims to systemat ....Sandwich Structures with Folded Core under Impact and Blast Loading. This project aims to support the development of new materials resistant to impacts. Novel sandwich panels making use of Miura-ori folded cores have superior performance relative to monolithic solid plates, in terms of stiffness and strength. They have great potential to be used in commercial and military vehicles as well as protective structures, which can be subjected to impact and blast loading. This project aims to systematically investigate the impact and blast response of such sandwich panels by establishing theoretical models and conducting experiments and advanced simulations. The findings may provide an insight into the fundamental mechanics of sandwich panels with folded cores under impact and blast loading, as well as guidelines for optimum design of these novel structures.Read moreRead less
Special Research Initiatives - Grant ID: SR0354509
Funder
Australian Research Council
Funding Amount
$20,000.00
Summary
China's Asia-Pacific Century: Enhancing Australia's Engagement. The emerging regional economic sphere of China, Taiwan and Hong Kong, encompassing close to a quarter of humankind, is fast becoming one of the world's two major powerhouses--and a potential locus for international conflict. Australia contains a very large and robust field of hundreds of modern China specialists--as many as all of Europe--but we are very spread out geographically and divided among twenty disciplines. There is a pate ....China's Asia-Pacific Century: Enhancing Australia's Engagement. The emerging regional economic sphere of China, Taiwan and Hong Kong, encompassing close to a quarter of humankind, is fast becoming one of the world's two major powerhouses--and a potential locus for international conflict. Australia contains a very large and robust field of hundreds of modern China specialists--as many as all of Europe--but we are very spread out geographically and divided among twenty disciplines. There is a patent, felt need for concerted, collaborative, multi-disciplinary research and analysis, as a wide range of important potential synergies exist.Read moreRead less
Next Generation Batteries: Exploiting Divalent Magnesium. This project aims to develop magnesium-based batteries with higher capacities and longer lifetimes. Modern society is increasingly demanding batteries that are safer, have higher capacities, and importantly, are cheaper than the ones available today. Magnesium-based batteries offer a tantalising prospect due to their intrinsic higher capacities and lower costs. And yet, their large-scale uptake continues to be a formidable challenge due t ....Next Generation Batteries: Exploiting Divalent Magnesium. This project aims to develop magnesium-based batteries with higher capacities and longer lifetimes. Modern society is increasingly demanding batteries that are safer, have higher capacities, and importantly, are cheaper than the ones available today. Magnesium-based batteries offer a tantalising prospect due to their intrinsic higher capacities and lower costs. And yet, their large-scale uptake continues to be a formidable challenge due to the poor reliability and lifetime of magnesium electrodes. This project plans to use the latest computational, electrochemical and metallurgical techniques synergistically to overcome the technical barriers in mitigating these issues. This work may lead to a targeted development of a new family of reliable, low-cost and high performance magnesium batteries.Read moreRead less
Emerging technologies of warfare as a challenge to the law of armed conflict: cyber-attacks, robotics and nanotechnology. In order to reduce suffering in war, international law places limits on the ways in which the adversary can be harmed. This project will assess how the law fares in dealing with emerging technologies, such as hostile uses of computer networks, robotics and nanotechnology. It will provide guidance to policy makers on how the law can be improved.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE120100139
Funder
Australian Research Council
Funding Amount
$350,000.00
Summary
A Hot Isostatic Press (HIP) for aerospace and biomedical component processing. This facility will provide a hot isostatic press of sufficiently large capacity to maximise production efficiencies in aerospace and biomedical applications through net shape manufacturing. The facility will be able to process small components or prototypes which will behave in a manner similar to larger scale components.
Innovative solutions to enhance space situational awareness. This project seeks to significantly advance Australia's space situational awareness by researching advanced orbit prediction techniques. The development of novel space object orbit prediction techniques will greatly improve collision warnings for satellite operators that provide essential space-based services to Australian Government and industries.
When stabilization and optimization meet: a codesign approach. The next generation of engineered systems need to perform complex tasks with precision, and be robust, resilient and adaptive to their environment enabled by the confluence of control, optimization, learning and computation Understanding the interplay between robust stability and optimization is key to this endeavor. Many techniques, such as model predictive control and reinforcement learning, rely on an intricate interplay between ....When stabilization and optimization meet: a codesign approach. The next generation of engineered systems need to perform complex tasks with precision, and be robust, resilient and adaptive to their environment enabled by the confluence of control, optimization, learning and computation Understanding the interplay between robust stability and optimization is key to this endeavor. Many techniques, such as model predictive control and reinforcement learning, rely on an intricate interplay between an optimization-based control algorithm and an optimization routine used to calculate the control law. This project aims to develop a general design framework for stability, suboptimality and robustness of such algorithms, that can be used in range of novel applications, such as driverless cars and drones. Read moreRead less
Moral Injury and the Ethics of Military Conditioning . Military personnel undergo extensive conditioning in the name of combat effectiveness and resilience. The aim of this project is to determine whether any of the intended effects of this conditioning constitute "moral injuries", and to describe the ethical and policy implications if so. This will deepen our understanding of the ethics of military recruitment, training, and socialisation. The expected outcomes include a statement of the obliga ....Moral Injury and the Ethics of Military Conditioning . Military personnel undergo extensive conditioning in the name of combat effectiveness and resilience. The aim of this project is to determine whether any of the intended effects of this conditioning constitute "moral injuries", and to describe the ethical and policy implications if so. This will deepen our understanding of the ethics of military recruitment, training, and socialisation. The expected outcomes include a statement of the obligations owed to professional soldiers on account of the potential for moral injury in preparing them for deployment. This will enhance Australia’s reputation for being ethically proactive and for taking a holistic approach to the welfare of its military servicemen and women.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE120102277
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Design optimisation and physical behaviour of fuel injection and mixing for innovative scramjet concepts. Scramjets are a potential game changer for satellite launch and high speed flight. The phenomena that will make or break them are complex, and achieving optimal designs is hugely challenging. This project combines advanced optimisation techniques and flow simulations to find, and understand, optimal fuel injection for innovative scramjet designs.