Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Field
-
the world, the PDS candidate appointed into this role will have the opportunity to work at the interface of research, industry and policy. You will become an integrated member of the Task, acting as a bridge
-
materials, supporting design (digitally enabled), repair (aftermarket) and advanced manufacturing technologies, whilst supporting more efficient and environmentally friendly power systems into the future
-
experience in the design and manufacturing of mechanical systems fluency in technical and non-technical English a high degree of independence, commitment, team spirit, and good communication skills Optional
-
of GPUs and/or time in either training or inference procedures, which pose considerable challenges to both academia and industry for widespread access and deployment. In particular, the sampling process of
-
the Excellence Engineer Education and Training Program. It has outstanding advantageous disciplines. Among them, the specialty of Electrical Machinery ranks high in China, and multiple disciplines
-
The PhD research project is an EPRSC Industrial Cooperative Awards in Science and Engineering (ICASE) with Constellium, a global leader in the development, manufacturing, and recycling of aluminium
-
PhD Studentship: Multi-robot Cyber-physical Systems for Solar Farm Health Monitoring and Maintenance
of renewable energy infrastructure, including, but not limited to: Design and development of an adaptable and scalable Cyber-physical system comprising interconnected multiple mobile robotic platforms. Identify
-
PhD Studentship: Rolls-Royce Sponsored PhD Scholarship – Micromechanics and In-Depth Materials Analysis of Advanced Aerospace Materials Upon the Manufacturing Process Engineering Applications
-
are carried out in direct collaboration with industry to a great extent. The position is offered in relation to the research program "Power Electronic Control Reliability and System Optimization" and the PhD
-
reusable launchers, autonomous robotics, and advanced materials could redefine how we design space structures. The ability to remotely assemble orbital systems from multiple launcher payloads would allow