Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989062
Funder
Australian Research Council
Funding Amount
$450,000.00
Summary
Airborne hyper-spectral scanning for advanced monitoring and assessment of vegetation and water properties. The proposed infrastructure will give Australian researchers the most advanced capabilities available world-wide in airborne remote sensing of the environment. By combining hyper-spectral scanning, with full wave-form resolving Light Detection and Ranging (LIDAR), microwave scanning and sythetic aperture RADAR, flown simultaneously on the most cost-efficient and technologically advanced re ....Airborne hyper-spectral scanning for advanced monitoring and assessment of vegetation and water properties. The proposed infrastructure will give Australian researchers the most advanced capabilities available world-wide in airborne remote sensing of the environment. By combining hyper-spectral scanning, with full wave-form resolving Light Detection and Ranging (LIDAR), microwave scanning and sythetic aperture RADAR, flown simultaneously on the most cost-efficient and technologically advanced research aircraft, it will be possible to assess and monitor a wide range of parameters not accessible to airborne methods before.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989804
Funder
Australian Research Council
Funding Amount
$150,000.00
Summary
A Universal Nano Tribometer for Surface and Thin Film Characterisation. The proposed infrastructure will be of major benefit to a large number of ARC funded research projects involving chracterisation of materials at four universities UOW,QUT, UNSW and CDU. The project will extend the research capability of the participating researchers and facilitate innovative projects and new research direction in advanced materials processing in the nano/micro scale. This in turn will lead to improved intern ....A Universal Nano Tribometer for Surface and Thin Film Characterisation. The proposed infrastructure will be of major benefit to a large number of ARC funded research projects involving chracterisation of materials at four universities UOW,QUT, UNSW and CDU. The project will extend the research capability of the participating researchers and facilitate innovative projects and new research direction in advanced materials processing in the nano/micro scale. This in turn will lead to improved international competitiveness of Australian industry.Read moreRead less
Using community engagement and enhanced visual information to promote FireWatch satellite communication as a support for collaborative decision-making. Using continuously updated satellite data, FireWatch will repurpose its professional service for use by the wider public, informing community-based decision-making and action. Communication flows and community decision-making will promote informed action at times of fire stress. Complex visual data will be communicated in clear and compelling way ....Using community engagement and enhanced visual information to promote FireWatch satellite communication as a support for collaborative decision-making. Using continuously updated satellite data, FireWatch will repurpose its professional service for use by the wider public, informing community-based decision-making and action. Communication flows and community decision-making will promote informed action at times of fire stress. Complex visual data will be communicated in clear and compelling ways.Read moreRead less
Adverse effects of sopite syndrome on occupants in wind-excited buildings. Current building motion design guidelines focus primarily on motion perception and complaint rates. However, wind-induced building motion can cause sopite syndrome or early onset motion sickness which adversely affects occupant wellbeing and work performance. This research aims to advance the understanding of the physiology of sopite syndrome, quantify the motion dosage that causes sopite syndrome and determine its advers ....Adverse effects of sopite syndrome on occupants in wind-excited buildings. Current building motion design guidelines focus primarily on motion perception and complaint rates. However, wind-induced building motion can cause sopite syndrome or early onset motion sickness which adversely affects occupant wellbeing and work performance. This research aims to advance the understanding of the physiology of sopite syndrome, quantify the motion dosage that causes sopite syndrome and determine its adverse effects on building occupants in real-world motion environments. This knowledge is expected to guide the formulation of building motion acceptability criteria based on safe motion exposure duration to facilitate the design of tall building that promotes population health and wellbeing and lifts work performance and productivity.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE150100278
Funder
Australian Research Council
Funding Amount
$370,000.00
Summary
Automating the smart home: an investigation of automated cooling practices. Home automation technologies are expected to achieve reductions in household energy costs and consumption. However, there has been no systematic investigation of the ways in which they are being incorporated into everyday life. The project aims to address this critical gap in relation to home cooling. It will investigate how automated cooling technologies are being incorporated into household practices in Australia, and ....Automating the smart home: an investigation of automated cooling practices. Home automation technologies are expected to achieve reductions in household energy costs and consumption. However, there has been no systematic investigation of the ways in which they are being incorporated into everyday life. The project aims to address this critical gap in relation to home cooling. It will investigate how automated cooling technologies are being incorporated into household practices in Australia, and the expectations they promote, sustain and transform. The project also aims to produce important new knowledge about how to study and understand the effects of ambient and automated technologies in everyday life and their potential impact on energy consumption.Read moreRead less
ABRA: improving foundational literacy through technology in regional and remote schools through a randomized controlled trial. Education outcomes in regional and remote Australia, particularly for Indigenous students, are worsening, to the point of constituting a national crisis. Skilled educators are not consistently available in sufficient numbers to arrest this trend in the early years by giving the intensive, continuous expert instruction required. Under limited pilot conditions, a web-base ....ABRA: improving foundational literacy through technology in regional and remote schools through a randomized controlled trial. Education outcomes in regional and remote Australia, particularly for Indigenous students, are worsening, to the point of constituting a national crisis. Skilled educators are not consistently available in sufficient numbers to arrest this trend in the early years by giving the intensive, continuous expert instruction required. Under limited pilot conditions, a web-based instructional tool known as ABRACADABRA has shown considerable promise as a means of conferring the foundational skills in literacy for emerging learners, despite high workforce turnover. Testing the effectiveness of ABRACADABRA under more stringent experimental conditions is an essential precursor to offering tested solutions based on evidence, not advocacy.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE150100181
Funder
Australian Research Council
Funding Amount
$183,413.00
Summary
Fieldwork or remote sensing? The blurred line of unmanned airborne systems. Fieldwork or remote sensing? The blurred line of unmanned airborne systems: The aim of the project is to develop a state-of-the-art Unmanned Airborne System (UAS) capability in support of field data acquisition. The system will provide highly detailed calibrated imagery of difficult or inaccessible survey sites and bridge the scale gap between in situ observations and imagery acquired by higher altitude airborne or satel ....Fieldwork or remote sensing? The blurred line of unmanned airborne systems. Fieldwork or remote sensing? The blurred line of unmanned airborne systems: The aim of the project is to develop a state-of-the-art Unmanned Airborne System (UAS) capability in support of field data acquisition. The system will provide highly detailed calibrated imagery of difficult or inaccessible survey sites and bridge the scale gap between in situ observations and imagery acquired by higher altitude airborne or satellite sensors. The UAS will have a diverse range of applications, including environmental monitoring, disaster management and recording sites of indigenous cultural significance. In addition, the system will be more flexible and cost effective than any other field or remote sensing tool.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100144
Funder
Australian Research Council
Funding Amount
$150,000.00
Summary
Mobile isotope monitoring for environmental studies. This facility will enable a quantum leap in Australia's capacity to undertake real-time, field based studies of environmental processes using the natural isotope tracers of carbon, oxygen and hydrogen. It will enable the researchers to address a range of fundamental research questions in climate change, water resources, ecology and human impact in tropical Australia.