Formal modelling and analysis of software requirements for air traffic management systems for improved integrity assurance. This project will significantly reduce the time and cost of developing software for critical applications such as aviation and air traffic management. As well as improving the trustworthiness of safety-critical computer-based systems, this project will also enable system improvements to be deployed faster and more reliably.
Building dependability into complex, computer-based systems. Air traffic control, telecommunications, defence, power distribution and many other vital infrastructures all rely on complex computer-based systems. Whenever one of these systems fails, it can cause major disruption to society, create large financial losses and even pose risks to life.
This project will integrate and improve methods for modelling and analysing computer-based systems in terms of their requirements and architectures ....Building dependability into complex, computer-based systems. Air traffic control, telecommunications, defence, power distribution and many other vital infrastructures all rely on complex computer-based systems. Whenever one of these systems fails, it can cause major disruption to society, create large financial losses and even pose risks to life.
This project will integrate and improve methods for modelling and analysing computer-based systems in terms of their requirements and architectures, focusing on how to achieve and maintain dependability in the context of on-going change and failure to meet requirements. These methods will be based on sound mathematical foundations and proven engineering approaches applicable to industrial-scale complex systems.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