The concept to be analysed is a proposed camera that would operate somewhat like the human eye. Rather than capturing an image on a rectangular flat surface, as is common in current cameras, the image would be captured on the inside surface of a sphere or spheroid.
This project will develop new methods of characterising and simulating components, machines, plant or systems that involve heat transfer, mechanical operations, energy conversion, cycles or flow processes (i.e. thermo-mechanical components, systems or machines) through discrete characterisation, topological network models, lumped elements and the characterisation of interaction interfaces.
In effect, what is proposed is the engineering equivalent of object oriented programming. Generic models will be developed for common, or uncommon, components, systems and assemblies that capture the essence of those things in the simplest and most compact form and also define how the represented item can interact with generic models of other items that might be introduced to it, brought into contact with it or connected to it.
Symmetry in engineering, science and mathematics—a study of the fundamentals with a view to developing new cross-disciplinary methodologies and applications—MPhil or PhD project by research
It is well recognized that symmetry underlies the processes and laws of nature. Developing an understanding of symmetry has already helped engineers, scientists and mathematicians to make significant advances in their respective fields. This research project will be characterized by the fact that the study will be undertaken within a Department of Mechanical Engineering and making use of some of the approaches, tools and techniques that are used by engineers, but yet also reaching out to other disciplines.