Special Research Initiatives - Grant ID: SR0354488
Funder
Australian Research Council
Funding Amount
$10,000.00
Summary
Intelligent vehicles and road infrastructure (IVRI). The aims of the network are to integrate the activities of researchers and practitioners in the areas of vehicles and road infrastructure and through cross-disciplinary collaboration apply intelligent control systems to deliver mobility, which is safer for all users, reduces driver stress and environmental impact with increased local manufactured content and improved cost effectiveness. It is of great significance to provide a cohesive solutio ....Intelligent vehicles and road infrastructure (IVRI). The aims of the network are to integrate the activities of researchers and practitioners in the areas of vehicles and road infrastructure and through cross-disciplinary collaboration apply intelligent control systems to deliver mobility, which is safer for all users, reduces driver stress and environmental impact with increased local manufactured content and improved cost effectiveness. It is of great significance to provide a cohesive solution to the transport problem considering all modes, environmental impacts, and economical and social considerations. This project should lead to a report identifying Australia's capability in this sector and a roadmap for a future research network integrating university and industry based research.Read moreRead less
Heavy vehicle peaks in the pattern of night-time road traffic noise: Human health and management of urban freight movement. The Australian road freight industry is a significant economic activity and is growing at an unprecedented rate. Also growing is community reaction to the health effects of truck noise, to the extent that it is recognised as a major constraint to future transport operations, particularly night-time movements in metropolitan areas and in rural towns. This research will benef ....Heavy vehicle peaks in the pattern of night-time road traffic noise: Human health and management of urban freight movement. The Australian road freight industry is a significant economic activity and is growing at an unprecedented rate. Also growing is community reaction to the health effects of truck noise, to the extent that it is recognised as a major constraint to future transport operations, particularly night-time movements in metropolitan areas and in rural towns. This research will benefit the community as well as transportation and environmental authorities at all levels of government that are grappling with the challenge of managing constraints to the growth of this important industry but at the same time protecting human health and well-being.Read moreRead less
A Human Factors Approach to the Design of Visual Information in the Highway Environment. Visual information in the highway environment affects drivers' perception, behaviour, and accident propensity. Using a range of methods and approaches, issues of key importance in road design will be addressed, e.g. (1) how increasing visual clutter in the road environment affects accident-producing behaviour, (2) how certain road situations create particular problems for the increasing number of older drive ....A Human Factors Approach to the Design of Visual Information in the Highway Environment. Visual information in the highway environment affects drivers' perception, behaviour, and accident propensity. Using a range of methods and approaches, issues of key importance in road design will be addressed, e.g. (1) how increasing visual clutter in the road environment affects accident-producing behaviour, (2) how certain road situations create particular problems for the increasing number of older drivers, and (3) how the road environment can be redesigned to reduce fundamental perceptual errors made by drivers. The proposal will generate new guidelines for how future road design can be optimised to minimise crash rates.Read moreRead less
Novel statistical analysis for traffic modelling. This collaborative research with Queensland Main Roads aims to develop and apply novel statistical modelling techniques which improve on the current statistical methods used for transport modelling. The research outcomes will provide a high level of accuracy in terms of predictions for trips leading to better use of expensive survey data. Predictions will be incorporated into transport models. Such model will be used for improving decisions i ....Novel statistical analysis for traffic modelling. This collaborative research with Queensland Main Roads aims to develop and apply novel statistical modelling techniques which improve on the current statistical methods used for transport modelling. The research outcomes will provide a high level of accuracy in terms of predictions for trips leading to better use of expensive survey data. Predictions will be incorporated into transport models. Such model will be used for improving decisions involving multi billion dollar transport infrastructure investment and applied to South East Queensland. The methods can be extended to transport models for other large conurbations in Australia. Outcomes include improved transport systems with economic benefits for business and the community. Read moreRead less
Hybrid Job Shop Techniques for Dynamic Train Scheduling. The job shop approach to dynamic train scheduling promises considerable benefits over existing approaches, and allows problems of large size and complexity to be solved with great accuracy. The application of research results in Australia has the potential to:
- reduce train delays and costs by better planning of train schedules of railway systems;
- reduce transport costs to rail customers and increase rail's market share of freight ....Hybrid Job Shop Techniques for Dynamic Train Scheduling. The job shop approach to dynamic train scheduling promises considerable benefits over existing approaches, and allows problems of large size and complexity to be solved with great accuracy. The application of research results in Australia has the potential to:
- reduce train delays and costs by better planning of train schedules of railway systems;
- reduce transport costs to rail customers and increase rail's market share of freight movements;
- enhance the ability of operators to control operations in an efficient manner and minimise conflicts;
- to increase efficiency of Australian Railway System, leading to lower operating and capital costs;
- optimise the energy consumed.
Read moreRead less
An Integrated Environment for Verification of Large-Scale Railway Interlockings. Railway administrations produce tabular specifications called Control Tables that define the safety and operational requirements for Railway Interlockings. This project will address the critical problem of early detection and elimination of errors in Control Tables. The project will produce a prototype environment for verifying railway interlocking Control Tables, suitable for application to most of the interlockin ....An Integrated Environment for Verification of Large-Scale Railway Interlockings. Railway administrations produce tabular specifications called Control Tables that define the safety and operational requirements for Railway Interlockings. This project will address the critical problem of early detection and elimination of errors in Control Tables. The project will produce a prototype environment for verifying railway interlocking Control Tables, suitable for application to most of the interlockings on the Queensland Rail network. It will also deliver results that will improve the current state-of-the-art in the practical application of model-checking technology.Read moreRead less
Model-driven development and verification of railway interlocking control logic. Railway interlockings are an essential and safety-critical part of all rail infrastructure. The results of the proposed project are intended to reduce the cost of the development and improve the quality of railway interlockings control logic. This will contribute to safer and more cost-effective rail transport in Queensland, Australia and internationally. This project has the potential to improve both development an ....Model-driven development and verification of railway interlocking control logic. Railway interlockings are an essential and safety-critical part of all rail infrastructure. The results of the proposed project are intended to reduce the cost of the development and improve the quality of railway interlockings control logic. This will contribute to safer and more cost-effective rail transport in Queensland, Australia and internationally. This project has the potential to improve both development and V&V capabilities for organisations that plan to use model-driven architecture (MDA) for safety-critical systems. While the industrial usage of MDA is currently in its infancy, forecasts predict that MDA will fundamentally change software development practice, especially in developed countries like Australia.Read moreRead less
DEVELOPING SCIENTIFIC BASIS FOR THE RAPID DETECTION SYSTEM OF DIESEL VEHICLES WITH HIGH LEVEL OF EXHAUST EMISSIONS. Diesel vehicle exhaust is a significant source of air pollution leading to major human health problems. However, only a small fraction of vehicles with high exhaust emissions cause the majority of this pollution. Initially, this research will develop a model of dispersion of pollutants into the environment immediately after emission. This model will be the scientific foundation for ....DEVELOPING SCIENTIFIC BASIS FOR THE RAPID DETECTION SYSTEM OF DIESEL VEHICLES WITH HIGH LEVEL OF EXHAUST EMISSIONS. Diesel vehicle exhaust is a significant source of air pollution leading to major human health problems. However, only a small fraction of vehicles with high exhaust emissions cause the majority of this pollution. Initially, this research will develop a model of dispersion of pollutants into the environment immediately after emission. This model will be the scientific foundation for the development of an efficient and economical rapid detection system for those vehicles with high exhaust emissions. The major outcome is to improve air quality and lower the occurrence/severity of airborne pollution induced health effects.Read moreRead less
Improving Road Safety and Driver Security: The Case of High Risk Fleet (Taxi) Drivers in Australia. Road crashes constitute a major cause of death and injury in Australia and taxis have a 22 times higher crash rate compared to private passenger vehicles. In addition to their high crash risks, 1/3 of all taxi drivers have experienced physical assaults. This innovative study will examine the circumstances that contribute toward taxi crashes and assaults on drivers and more importantly, it will des ....Improving Road Safety and Driver Security: The Case of High Risk Fleet (Taxi) Drivers in Australia. Road crashes constitute a major cause of death and injury in Australia and taxis have a 22 times higher crash rate compared to private passenger vehicles. In addition to their high crash risks, 1/3 of all taxi drivers have experienced physical assaults. This innovative study will examine the circumstances that contribute toward taxi crashes and assaults on drivers and more importantly, it will design, implement and evaluate a program of countermeasures to improve the safety and security of taxi drivers, which will contribute significantly toward reducing the truma related to road crashes in Australia and assaults on public transport drivers.Read moreRead less
AN INTEGRATED MODEL OF BUS EMISSION IMPACTS AT AND AROUND BUS STATIONS AND BUSWAYS FOR TRANSPORT AND LAND USE PLANNING. Buses are one of the two most common forms of public transport in Australia, with bus fleet and service coverage increasing, yet the effect on human health and the environment of the emissions from these vehicles is unknown. This research will develop a comprehensive model of bus emission impacts in and around bus stations and along bus corridors for use in exposure and risk as ....AN INTEGRATED MODEL OF BUS EMISSION IMPACTS AT AND AROUND BUS STATIONS AND BUSWAYS FOR TRANSPORT AND LAND USE PLANNING. Buses are one of the two most common forms of public transport in Australia, with bus fleet and service coverage increasing, yet the effect on human health and the environment of the emissions from these vehicles is unknown. This research will develop a comprehensive model of bus emission impacts in and around bus stations and along bus corridors for use in exposure and risk assessment, integrated transport and land use planning and policy setting. This research will provide a scientific foundation for developing future directions for the management of public transport to minimize the impact of emissions on the public and the environment.Read moreRead less