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Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0347553
Funder
Australian Research Council
Funding Amount
$175,000.00
Summary
Smart Equipment for Remote Monitoring of Isolated and Mobile Infrastructure. The partners' research involves the collection and assessment of data to determine the condition, maintenance strategies and risk of failure of plant in diverse areas such as transport, cargo and packaging, mining and power. Recent advances in data processing, computing and telemetry mean that it is now possible to actually install small and rugged data acquisition equipment on remote infrastructure or mobile plant. T ....Smart Equipment for Remote Monitoring of Isolated and Mobile Infrastructure. The partners' research involves the collection and assessment of data to determine the condition, maintenance strategies and risk of failure of plant in diverse areas such as transport, cargo and packaging, mining and power. Recent advances in data processing, computing and telemetry mean that it is now possible to actually install small and rugged data acquisition equipment on remote infrastructure or mobile plant. This equipment can acquire, condition and process the signals and use wireless telemetry to transmit the data for remote assessment. The proposed infrastructure will enable the partners' research to be extended to these challenging applications.Read moreRead less
Advanced control and estimation strategies for electromechanical brake-by-wire systems. The project aims to investigate the application of advanced control and estimation techniques (robust nonlinear and soft-computing approaches) to the problem of maximising the effectiveness of electromechanical brake-by-wire systems in emergency braking manoeuvres. The work will be conducted using state-of-the-art control design and hardware-in-the loop simulation facilities in the Research Centre for Advance ....Advanced control and estimation strategies for electromechanical brake-by-wire systems. The project aims to investigate the application of advanced control and estimation techniques (robust nonlinear and soft-computing approaches) to the problem of maximising the effectiveness of electromechanical brake-by-wire systems in emergency braking manoeuvres. The work will be conducted using state-of-the-art control design and hardware-in-the loop simulation facilities in the Research Centre for Advanced By-Wire Technologies (RABiT), which has been established to accelerate the development and commercialisation of by-wire technology in Australia. Expected outcomes are actuator and road friction control algorithms which have been demonstrated to be robust in the context of real-world actuator and vehicle dynamics.Read moreRead less
Dynamic Modelling and Gear Shift Simulation of Powertrains with Dual Clutch Transmissions. The project will make a significant contribution to the development and commercialisation of dual clutch transmissions, which represent a breakthrough vehicle transmission technology. The acquired knowledge and advanced simulation tools will enable engineers to design superior vehicles with improved fuel efficiency and performance. The project will hence benefit the nation and community, resulting in:
1) ....Dynamic Modelling and Gear Shift Simulation of Powertrains with Dual Clutch Transmissions. The project will make a significant contribution to the development and commercialisation of dual clutch transmissions, which represent a breakthrough vehicle transmission technology. The acquired knowledge and advanced simulation tools will enable engineers to design superior vehicles with improved fuel efficiency and performance. The project will hence benefit the nation and community, resulting in:
1) powertrains with improved fuel efficiency, drivability and gear shift quality at the lowest production cost;
2) increased employment in the automotive sector benefiting from leading the world in applying the frontier technology to vehicles;
3) increased knowledge base on complex dynamic systems, well trained researchers and engineers.
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An Innovative Powertrain Architecture and Optimal Energy Management for Plug-in Hybrid Electric Vehicles. Plug-in hybrid electric vehicle technologies will significantly reduce the dependence of vehicles on fossil fuels, thereby reducing their emissions of carbon and other pollutants. The project will produce new knowledge in automotive engineering, software tools for vehicle design and a novel powertrain architecture with key components almost ready for commercial application. The research will ....An Innovative Powertrain Architecture and Optimal Energy Management for Plug-in Hybrid Electric Vehicles. Plug-in hybrid electric vehicle technologies will significantly reduce the dependence of vehicles on fossil fuels, thereby reducing their emissions of carbon and other pollutants. The project will produce new knowledge in automotive engineering, software tools for vehicle design and a novel powertrain architecture with key components almost ready for commercial application. The research will directly contribute to the use of green energy and the reduction of vehicles' harmful environmental impacts. The nation will benefit from new economic activity, such as increased exports of automotive parts and components, and from strengthening its position as a world leader in reducing carbon emissions.Read moreRead less
Laser based combustion diagnostics of an automotive development engine. Automotive emissions regulations will continue to tighten in the foreseeable future. Engine manufacturers are therefore undertaking substantial research and development in order to meet future legal requirements. One technology with proven emissions performance is gasoline direct injection (GDI).
This project requests funding for the detailed study of a GDI development engine. Sophisticated, laser based diagnostics and an ? ....Laser based combustion diagnostics of an automotive development engine. Automotive emissions regulations will continue to tighten in the foreseeable future. Engine manufacturers are therefore undertaking substantial research and development in order to meet future legal requirements. One technology with proven emissions performance is gasoline direct injection (GDI).
This project requests funding for the detailed study of a GDI development engine. Sophisticated, laser based diagnostics and an ?optical access? engine will be used to examine the fuel spray, fluid motion and pollutant formation inside the cylinder during operation. Numerical simulations will complement these experiments. Using these results, the mechanisms of pollutant formation in a GDI engine will be determined.
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Advanced Future Automotive Electrical Machines based on Amorphous Iron. Electric machines consume about 70% of all electrical energy generated. Electric machines constructed from a promising magnetic material called amorphous iron can be much more efficient than conventional designs, hence saving energy. Amorphous iron is normally difficult to cut accurately into the shapes required in electric machines. We propose to design and construct high-efficiency permanent magnet machines based on amorp ....Advanced Future Automotive Electrical Machines based on Amorphous Iron. Electric machines consume about 70% of all electrical energy generated. Electric machines constructed from a promising magnetic material called amorphous iron can be much more efficient than conventional designs, hence saving energy. Amorphous iron is normally difficult to cut accurately into the shapes required in electric machines. We propose to design and construct high-efficiency permanent magnet machines based on amorphous iron for automotive applications, which will be cut using an innovative Australian waterjet cutting technique. The key challenges are to optimise the machine design for commercial production given the capabilities and limitations of the material and the new cutting process.Read moreRead less
Prediction and measurement of transmission error in a rear axle differential and its relationship to vehicle noise. Noise and vibration of vehicles is an important consideration for both performance efficiency and passenger comfort. Gear noise is a significant contributor to NVH of vehicles. Gear transmission error is recognised as the main source of gear drive vibration. This proposal involves the prediction and measurement of gear transmission error of a rear axle differential. A second import ....Prediction and measurement of transmission error in a rear axle differential and its relationship to vehicle noise. Noise and vibration of vehicles is an important consideration for both performance efficiency and passenger comfort. Gear noise is a significant contributor to NVH of vehicles. Gear transmission error is recognised as the main source of gear drive vibration. This proposal involves the prediction and measurement of gear transmission error of a rear axle differential. A second important component is to investigate the effect of various vehicle parameters and operating conditions such as speed, load and power on the noise produced for a given TE. The successful outcomes will result in great economic benefit to Australia's automotive and manufacturing industry.Read moreRead less
Quantitative analysis of dynamic performance of vehicles with uncertain system parameters and road inputs. Ride comfort, road holding and stability of on-road vehicles are not only important quality indicators but major public health and safety issues. To accurately predict and prevent unsafe motions of a vehicle under all circumstances is still a major technological challenge. The research, which aims to develop a novel design theory, presents a significant step forward in tackling the challeng ....Quantitative analysis of dynamic performance of vehicles with uncertain system parameters and road inputs. Ride comfort, road holding and stability of on-road vehicles are not only important quality indicators but major public health and safety issues. To accurately predict and prevent unsafe motions of a vehicle under all circumstances is still a major technological challenge. The research, which aims to develop a novel design theory, presents a significant step forward in tackling the challenge in the quantitative performance analysis of vehicles with various uncertainties. The acquired knowledge will assist engineers in developing safer vehicles and also benefit the aeronautical, military and other transportation industries. The wider community would benefit by potentially reduced death rates and fatal injuries caused by car crashes.Read moreRead less
Demand Dependent Active Suspensions for Preventing Vehicle Rollover. Rollover crashes are a major public safety issue in Australia. Reliable and low cost anti-roll technology and the availability of required design methodology and simulation tools will greatly assist the automotive industry in improving vehicle safety and consequently enhance its competitiveness in the global marketplace. The knowledge acquired from this project would provide an essential theoretical basis for commercialising th ....Demand Dependent Active Suspensions for Preventing Vehicle Rollover. Rollover crashes are a major public safety issue in Australia. Reliable and low cost anti-roll technology and the availability of required design methodology and simulation tools will greatly assist the automotive industry in improving vehicle safety and consequently enhance its competitiveness in the global marketplace. The knowledge acquired from this project would provide an essential theoretical basis for commercialising the proposed suspensions and enhance the exports of Australian car component manufacturers. It would also benefit aeronautical, military and other industries. The wide community would benefit by potentially reduced death rates and fatal injuries caused by rollover crashes, and through increased employment in industry.Read moreRead less
Optimization of fuel consumption and vehicle emission by simulating the integrated air conditioning and engine controls. As public interest on environmental conservation increases, tougher regulations on vehicle emission and fuel consumption will be implemented causing likely further restrictions on fuel consumption while operating the air conditioning system. Currently air conditioning and engine systems are controlled by two separate programs and lack effective communication between each other ....Optimization of fuel consumption and vehicle emission by simulating the integrated air conditioning and engine controls. As public interest on environmental conservation increases, tougher regulations on vehicle emission and fuel consumption will be implemented causing likely further restrictions on fuel consumption while operating the air conditioning system. Currently air conditioning and engine systems are controlled by two separate programs and lack effective communication between each other. This research aims to gain better understanding of the quantitative effects of car air-conditioning systems on fuel consumption and various air pollutant emissions, and develop an integrated simulation tool that links the air conditioning, engine fuel consumption and emission to assist the achievement of optimum vehicle energy and emission management.Read moreRead less