Decision support systems for the implementation of team based cellular manufacturing in adaptive organizations. Cellular manufacturing, where a family of products is produced in discrete multi-machine cells, has been adopted by many firms to increase flexibility, reduce costs and improve quality. However the implementation of cellular manufacturing is a complex process as technology, customer needs, product characteristics, enterprise goals and organisation structure can influence the effectiven ....Decision support systems for the implementation of team based cellular manufacturing in adaptive organizations. Cellular manufacturing, where a family of products is produced in discrete multi-machine cells, has been adopted by many firms to increase flexibility, reduce costs and improve quality. However the implementation of cellular manufacturing is a complex process as technology, customer needs, product characteristics, enterprise goals and organisation structure can influence the effectiveness of the implementation. This project will develop an intelligent model for the implementation of cellular manufacturing in batch production and test it in a case study. The work will contribute to Australia's contribution to the Intelligent Manufacturing Systems international research project SYMPHONY.Read moreRead less
Plasma touches life: advancing plasma technologies for the life sciences. The aim of this project is to develop a mechanistic understanding of how electrically excited gas (plasma) jets deliver reactive oxygen and nitrogen species into tissue, ensuring safety and precision in their use to combat disease. Overcoming barriers in delivery is intended to help realise the full potential of plasma in the life sciences. The project is expected to generate new knowledge across physics, chemistry and bio ....Plasma touches life: advancing plasma technologies for the life sciences. The aim of this project is to develop a mechanistic understanding of how electrically excited gas (plasma) jets deliver reactive oxygen and nitrogen species into tissue, ensuring safety and precision in their use to combat disease. Overcoming barriers in delivery is intended to help realise the full potential of plasma in the life sciences. The project is expected to generate new knowledge across physics, chemistry and biology, leading to new approaches for the future development of plasma technologies. This should provide significant benefits by expanding the human capacity of research in plasma, and in growing the advanced manufacturing of plasma devices for future applications in engineering, biology and health.Read moreRead less