243 programming-"IMPRS-ML"-"IMPRS-ML"-"IMPRS-ML" positions at University of Sheffield in United Kingdom
Sort by
Refine Your Search
-
Listed
-
Category
-
Program
-
Field
-
resources, and plan and progress work activities on multiple projects Desirable Interview Further Information Grade Clinical Academic Trainees Salary £52,656 - £73,992 Work arrangement Full-time Duration 30
-
process It is anticipated that the selection process will take place on Tuesday 23rd September. This will consist ofan interview and a test. We plan to let candidates know if they have progressed
-
/supporting of other Project Engineers reports and presentations. Plan and carry out tasks / responsibilities over the short-medium term, with an awareness of longer-term issues. Plan several months in advance
-
to explore key technologies and solutions that will support UK industry to reach net zero. https://greenindustrialfutures.site.hw.ac.uk/the-programme/training-programme/ Project: The green industrial futures
-
to explore key technologies and solutions that will support UK industry to reach net zero. https://greenindustrialfutures.site.hw.ac.uk/the-programme/training-programme/ Project: Both carbon removal
-
development of protocols for commercial deployment (supported by Detectronic ). There will be significant opportunities for personal development including a residential programme at Ashorne Hill to further
-
to industrial problems. As a member of the multi-functional project team, you will contribute to the scoping, delivering and reporting of research projects, as well as engineering tasks such as programming
-
sets, plan and execute large scale computational analyses, compile and present results, contribute to writing publications, present at lab meetings and conferences and contribute to other activities in
-
planning, student intake forecasting, tuition fee setting and new programme financial viability assessments. This involves collaborating with other professional services teams, analysing complex information
-
research programme is to use genetic, molecular and cellular, and imaging/image analysis approaches to understand the development and function of the vertebrate inner ear, the organ of hearing and balance