Integration of Metamorphic Testing and Model Checking. This project proposes an innovative approach of integrating metamorphic testing and model checking. Its main outcome will be to deliver a comprehensive testing method that will help to reduce errors and costs in software development and consequently to improve the quality of software systems. Since software is pervasive and ubiquitous, our results will improve the nation's software productivity and quality. Thus, our results will help in ra ....Integration of Metamorphic Testing and Model Checking. This project proposes an innovative approach of integrating metamorphic testing and model checking. Its main outcome will be to deliver a comprehensive testing method that will help to reduce errors and costs in software development and consequently to improve the quality of software systems. Since software is pervasive and ubiquitous, our results will improve the nation's software productivity and quality. Thus, our results will help in raising our nation's competitive advantage towards the goal of becoming a leading nation in the software industry among Asia-Pacific countries. Furthermore, this collaboration will help young Australian researchers to link to the Chinese Academy of Sciences, a leading-edge international research institute.Read moreRead less
Experimental and Numerical Modelling of Gas-Liquid Flows. Multiphase flow systems are encountered in many process industries such as chemical, petroleum, mining, energy, food and pharmaceutical, which are fundamental to the Australian economy. Commercially available computer codes for simulating such systems are currently widely used in many Australian industrial sectors. This research project will address the prevalent deficiency in many of these computer codes and develop new models capable of ....Experimental and Numerical Modelling of Gas-Liquid Flows. Multiphase flow systems are encountered in many process industries such as chemical, petroleum, mining, energy, food and pharmaceutical, which are fundamental to the Australian economy. Commercially available computer codes for simulating such systems are currently widely used in many Australian industrial sectors. This research project will address the prevalent deficiency in many of these computer codes and develop new models capable of predicting a wide range of industrial bubbly flow problems. The resultant improved computer codes will provide industries with significant benefits - especially reduced times and costs in their design and production.Read moreRead less