Submerged cultural landscapes and the underwater heritage of Sea Country. This project aims to substantially extend our knowledge of the vast but poorly characterised submerged cultural landscapes on the Australian continental shelf, which remains one of the critical gaps in Australian archaeology. Original fieldwork will target locations in Western Australia and the Northern Territory to enrich and contextualise the submerged archaeological record within the broader discourse. The project will ....Submerged cultural landscapes and the underwater heritage of Sea Country. This project aims to substantially extend our knowledge of the vast but poorly characterised submerged cultural landscapes on the Australian continental shelf, which remains one of the critical gaps in Australian archaeology. Original fieldwork will target locations in Western Australia and the Northern Territory to enrich and contextualise the submerged archaeological record within the broader discourse. The project will combine archaeology, marine science and Indigenous knowledge to enhance our understanding of Pleistocene and early Holocene human-environment dynamics. Research will be undertaken in partnership with Traditional Owners and will support a national policy for the protection of Indigenous underwater cultural heritage.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE220100550
Funder
Australian Research Council
Funding Amount
$443,608.00
Summary
Prospecting for Australia's Submerged Landscapes through Machine Learning. This project aims to apply machine learning to image-based seabed surveys to prospect for submerged Aboriginal archaeological sites, beginning with both of Australia’s only known sites. This will be the first attempt globally to develop a technique to pinpoint potential archaeological material within large area surveys, tagging features which can then be tested through scientific diving. Expected outcomes are workflows th ....Prospecting for Australia's Submerged Landscapes through Machine Learning. This project aims to apply machine learning to image-based seabed surveys to prospect for submerged Aboriginal archaeological sites, beginning with both of Australia’s only known sites. This will be the first attempt globally to develop a technique to pinpoint potential archaeological material within large area surveys, tagging features which can then be tested through scientific diving. Expected outcomes are workflows that pair machine learning algorithms, marine robotics and scientific diving to greatly enhance prospecting efficiency. This will enhance knowledge and benefit management of these resources on Australia’s continental shelf and beyond, reducing the impacts of offshore industry on cultural heritage.Read moreRead less
Diving into the Desert. Indigenous and Future Floodplain Management. This project aims to discover how Indigenous communities managed cycles of drought and flood in the Lake Eyre Basin, and to learn from this to manage Australia’s inland rivers sustainably. By integrating archaeology – done underwater, on land and from the air – with Indigenous knowledge and environmental and flow modelling, the project expects to uncover a deep history of Indigenous environmental engineering in one of the worl ....Diving into the Desert. Indigenous and Future Floodplain Management. This project aims to discover how Indigenous communities managed cycles of drought and flood in the Lake Eyre Basin, and to learn from this to manage Australia’s inland rivers sustainably. By integrating archaeology – done underwater, on land and from the air – with Indigenous knowledge and environmental and flow modelling, the project expects to uncover a deep history of Indigenous environmental engineering in one of the world's last unregulated desert river systems . The project's outcomes – an Australian National Maritime Museum touring exhibition plus written, audio and 3D immersive communications – seek to benefit Australia's cultural life and flood mitigation, and to protect the Mithaka Aboriginal Corporation's culture and country. Read moreRead less
Industrial Transformation Training Centres - Grant ID: IC220100003
Funder
Australian Research Council
Funding Amount
$4,930,205.00
Summary
ARC Training Centre for Biofilm Research and Innovation . The ARC Training Centre for Biofilm Research and Innovation aims to transform biofouling management strategies for maritime platforms by building on local and international expertise to mentor and train the next generation of interdisciplinary scientists and engineers. Anticipating evolving regulatory stringency, this project expects to establish a dynamic environment for industry partners, students and scientists to collaborate and devel ....ARC Training Centre for Biofilm Research and Innovation . The ARC Training Centre for Biofilm Research and Innovation aims to transform biofouling management strategies for maritime platforms by building on local and international expertise to mentor and train the next generation of interdisciplinary scientists and engineers. Anticipating evolving regulatory stringency, this project expects to establish a dynamic environment for industry partners, students and scientists to collaborate and develop biofilm management strategies. Expected outcomes include new and enhanced collaborations that advance and translate knowledge to better manage biofouling. The significant benefits will include a generation of industry-focused researchers critical for growing Australia’s Defence industry.Read moreRead less
Mobilising Dutch East India Company collections for new global stories . Australia has a rich legacy of archives, art and artefacts, including 4 shipwrecks in WA, from its history of encounters with the Dutch East India Company (VOC). Through comparative research in Australian and overseas museums and archives we aim to situate Australian collections in a global context, creating new stories about Australia as part of the VOC global network. An interdisciplinary team will train 3 ECRs and 7 HDRs ....Mobilising Dutch East India Company collections for new global stories . Australia has a rich legacy of archives, art and artefacts, including 4 shipwrecks in WA, from its history of encounters with the Dutch East India Company (VOC). Through comparative research in Australian and overseas museums and archives we aim to situate Australian collections in a global context, creating new stories about Australia as part of the VOC global network. An interdisciplinary team will train 3 ECRs and 7 HDRs and forge partnerships with the Netherlands, Britain, Denmark, Germany, Sweden, Indonesia, Malaysia, and South Africa, strengthening national capacity. Our analysis will enrich the value of collections, provide narratives for museums and sites, and revitalise content for international and domestic tourism markets.Read moreRead less
The future of shipping: achieving autonomous navigation. This project aims to develop autonomous decision systems and onshore control stations to support the design and operation of unmanned cargo ships. Blending observations, numerical models, virtual reality and machine learning, the project will develop algorithms for unsupervised navigation and embed these in an advanced ship simulator platform capable of responding to environmental conditions and optimising sea freight transport capabilitie ....The future of shipping: achieving autonomous navigation. This project aims to develop autonomous decision systems and onshore control stations to support the design and operation of unmanned cargo ships. Blending observations, numerical models, virtual reality and machine learning, the project will develop algorithms for unsupervised navigation and embed these in an advanced ship simulator platform capable of responding to environmental conditions and optimising sea freight transport capabilities. The expected outcomes will enable the integration of automated controls in ships, including remote-control capabilities. This will support Australia’s transition towards an autonomous shipping industry, delivering greater reliability, efficiency, productivity and safety.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE230100435
Funder
Australian Research Council
Funding Amount
$428,568.00
Summary
Measuring and predicting sea spray spume droplets in the field. Sea spray spume droplets modulate heat and moisture fluxes between the ocean and atmosphere. These fluxes are a major source of uncertainty in extreme weather forecasting models due to a lack of reliable field measurement techniques. This project aims to develop a novel measurement technique to measure sea spray and generate new knowledge on the magnitude and nature of sea spray spume production. Expected outcomes include novel tool ....Measuring and predicting sea spray spume droplets in the field. Sea spray spume droplets modulate heat and moisture fluxes between the ocean and atmosphere. These fluxes are a major source of uncertainty in extreme weather forecasting models due to a lack of reliable field measurement techniques. This project aims to develop a novel measurement technique to measure sea spray and generate new knowledge on the magnitude and nature of sea spray spume production. Expected outcomes include novel tools, a baseline dataset of sea spray field observations and predictive capabilities. Providing critical information to forecast extreme weather and tropical cyclones, this research will improve accuracy of coastal weather hazard prediction providing many social and economic benefits for Australia and other nations.Read moreRead less
Efficiently unlocking full-scale WEC dynamics for industry cost reduction. This project will reduce the cost of ocean wave energy, by uniting leading expertise from academia with cutting-edge know-how and full-scale data from industry to advance the way oceanic forces on wave energy converters are represented in industry models. These models are critical for designing and controlling the next generation of wave energy converters, which have larger motions than ever before. Carefully tested model ....Efficiently unlocking full-scale WEC dynamics for industry cost reduction. This project will reduce the cost of ocean wave energy, by uniting leading expertise from academia with cutting-edge know-how and full-scale data from industry to advance the way oceanic forces on wave energy converters are represented in industry models. These models are critical for designing and controlling the next generation of wave energy converters, which have larger motions than ever before. Carefully tested models will lead to better estimates of power production and loads, which will drive down the cost of wave energy and enable its large-scale utilisation. Broad communication of benefits and sharing of new knowledge will accelerate commercialisation of ocean energy in Australia and pave the way to meeting our future energy needs.Read moreRead less
How archaeology can transform living in space. This project aims to investigate human engagement with material culture in the extreme environment of space by applying archaeological methods to the habitation design of the International Space Station. The project will use NASA data to record astronaut interactions with objects and spaces over time. The project expects to remedy deficiencies in previous psychological and engineering design research by taking a deep-time perspective on how a cultur ....How archaeology can transform living in space. This project aims to investigate human engagement with material culture in the extreme environment of space by applying archaeological methods to the habitation design of the International Space Station. The project will use NASA data to record astronaut interactions with objects and spaces over time. The project expects to remedy deficiencies in previous psychological and engineering design research by taking a deep-time perspective on how a culture develops in a microgravity environment. The results are intended to identify how humans adapt to space technology and can be applied in the future design of long duration space missions to maximise both survival and efficiency.Read moreRead less