A Virtual Electromagnetic Compatibility (EMC) Lab Based on Advanced Computer Modeling and Simulation Techniques. The proposed project will provide a framework of electromagnetic compatibility computer modelling technologies for an electromagnetic compatibility/electromagnetic interference problem-solving environment. It will result in theoretical and practical contributions to the field of electromagnetic compatibility/electromagnetic interference and computational electromagnetics. The project ....A Virtual Electromagnetic Compatibility (EMC) Lab Based on Advanced Computer Modeling and Simulation Techniques. The proposed project will provide a framework of electromagnetic compatibility computer modelling technologies for an electromagnetic compatibility/electromagnetic interference problem-solving environment. It will result in theoretical and practical contributions to the field of electromagnetic compatibility/electromagnetic interference and computational electromagnetics. The project will provide an innovative technology to industry and societies with following major benefits: a) increased productivity and minimized the product risk with low failure rate, b) quicker project management cycles through such cost-effective electromagnetic compatibility computer modelling and simulation techniques based virtual Electromagnetic Compatibility Lab. and c) improved electromagnetic compatibility/electromagnetic interference problem solving environment and techniques for scientific research and commercial applications.Read moreRead less
Improved patient care and image resolution in magnetic resonance imaging. A better understanding of the vibration within MRIs would result in techniques to both improve the image resolution and lower the noise emissions. Direct improvement of health care for Australians will result. Both the patient and the working environment around these scanners will improve as well as image resolution. Presently imaging is possible at the cellular scale, but only through improved MRI stability will imaging r ....Improved patient care and image resolution in magnetic resonance imaging. A better understanding of the vibration within MRIs would result in techniques to both improve the image resolution and lower the noise emissions. Direct improvement of health care for Australians will result. Both the patient and the working environment around these scanners will improve as well as image resolution. Presently imaging is possible at the cellular scale, but only through improved MRI stability will imaging reach the molecular level. Medical research that is linked to MRI imaging can be expected to advance in step with improved image resolution. The resulting knowledge could also be used in other research and industrial areas, including micro- and nano-scale devices, where vibration is a critical performance limiting factor.Read moreRead less