Engineering approaches towards atomic imaging of bacterial cells. This project aims to develop novel approaches for analysis of single biological cells at atomic scale. The project will first develop an approach by utilising nanoscale ion beam to interact with the frozen cells in a controllable manner, followed by performing nanoscale dissection and analyses. By introducing engineered two-dimensional materials, namely graphene, atomic resolution three-dimensional imaging of the cellular chemistr ....Engineering approaches towards atomic imaging of bacterial cells. This project aims to develop novel approaches for analysis of single biological cells at atomic scale. The project will first develop an approach by utilising nanoscale ion beam to interact with the frozen cells in a controllable manner, followed by performing nanoscale dissection and analyses. By introducing engineered two-dimensional materials, namely graphene, atomic resolution three-dimensional imaging of the cellular chemistry will become feasible, which will shed light on various fundamental mechanisms inside the cells. This will provide significant benefits upon success, and will impact a wide spectrum of fields from understanding cellular functions to developing effective drugs.Read moreRead less
Investigating the impact of augmented reality on consumer decision making and marketing systems. The marketing environment is changing rapidly, with mobile digital devices providing consumers the ability to augment their physical reality with virtual representations. This project investigates how consumers make choices, how manufacturers design successful business practices and how regulators proscribe manipulative behaviour in these environments.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE180100118
Funder
Australian Research Council
Funding Amount
$159,450.00
Summary
Sensor calibration facility for spectral and thermal remote sensing. This project aims to establish a calibration facility for the radiometric and spectral correction of hyperspectral and thermal sensors for ultrahigh-resolution remote sensing. Sensor calibration and characterisation is critical to the accuracy of hyperspectral and thermal data products, however, there is no central facility in Australia for this purpose. This project will provide significant benefits, such as growing our capaci ....Sensor calibration facility for spectral and thermal remote sensing. This project aims to establish a calibration facility for the radiometric and spectral correction of hyperspectral and thermal sensors for ultrahigh-resolution remote sensing. Sensor calibration and characterisation is critical to the accuracy of hyperspectral and thermal data products, however, there is no central facility in Australia for this purpose. This project will provide significant benefits, such as growing our capacity in ultrahigh-resolution remote sensing for ecosystem science, biosecurity, and disaster response.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE190101182
Funder
Australian Research Council
Funding Amount
$390,000.00
Summary
Leaf to landscape: near-instant vegetation growth and productivity rates. This project aims to develop a remote sensing approach for more accurate monitoring of vegetation growth rate and productivity, and the fast-changing vegetation stress dynamics across agricultural and natural landscapes. Algorithms and methods will be developed to use and analyse newly available Earth Observation satellite data to map and monitor plant primary productivity. This project will combine direct plant function m ....Leaf to landscape: near-instant vegetation growth and productivity rates. This project aims to develop a remote sensing approach for more accurate monitoring of vegetation growth rate and productivity, and the fast-changing vegetation stress dynamics across agricultural and natural landscapes. Algorithms and methods will be developed to use and analyse newly available Earth Observation satellite data to map and monitor plant primary productivity. This project will combine direct plant function measurements, at leaf and canopy scales, with imaging and ranging data in 3D computer modelling techniques. This will address the need to optimise food production and to sustainably manage ecosystem services in a changing climate, with preferential benefits for extensive and inaccessible Australian landscapes.Read moreRead less
Bridging scales in remote sensing of vegetation stress. This project aims to develop operational upscaling algorithms to map vegetation stress indicators from space-borne missions’ optical observations of the Earth. These approaches use computer radiative transfer models and unmanned aircraft systems called drones, and will pave the way for regular satellite monitoring of plant health in extensive and inaccessible Australian and Antarctic areas. More accurate and timely remote sensing maps of ea ....Bridging scales in remote sensing of vegetation stress. This project aims to develop operational upscaling algorithms to map vegetation stress indicators from space-borne missions’ optical observations of the Earth. These approaches use computer radiative transfer models and unmanned aircraft systems called drones, and will pave the way for regular satellite monitoring of plant health in extensive and inaccessible Australian and Antarctic areas. More accurate and timely remote sensing maps of early stress symptoms will provide early warnings of droughts, diseases and pests, tell when and where to protect ecological functions of wild natural systems, and help to sustain or even increase agricultural food production.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE210100494
Funder
Australian Research Council
Funding Amount
$455,333.00
Summary
A novel electronic nose to locate victims of mass disaster events . The risk of global mass disaster events is increasing due to climate change and acts of terrorism. The most critical action following these events is locating victims. This proposal aims to develop an electronic nose capable of locating living and deceased victims by targeting volatile chemical components emitted from the human body. This project expects to overcome current limitations of current detection methods (e.g. cost, li ....A novel electronic nose to locate victims of mass disaster events . The risk of global mass disaster events is increasing due to climate change and acts of terrorism. The most critical action following these events is locating victims. This proposal aims to develop an electronic nose capable of locating living and deceased victims by targeting volatile chemical components emitted from the human body. This project expects to overcome current limitations of current detection methods (e.g. cost, limited operational time, deployment constraints in hazardous scenarios). The expected project outcomes include the development of innovative techniques that will improve mass disaster recovery on a global scale and provide significant benefit to human welfare. Read moreRead less
Local Aboriginal community archives: the use of information technology and the National Broadband Network in disaster preparedness and recovery. This project will redefine the way significant and at-risk audiovisual archival material in Aboriginal communities is preserved, protected and made accessible for future generations via new initiatives such as cloud technology and the National Broadband Network, ensuring intergenerational transmission of vital cultural heritage.