107 web-programmer-developer-"https:"-"University-of-Cambridge"-"https:" positions at UNIVERSITY OF SURREY
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shared, high-quality auditory experiences to multiple listeners. CIAT’s vision is to transform the state of the art by developing a principled framework for capturing and reproducing only perceptually
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, businesses and wider stakeholders invested in the food and drink sector, to develop innovative and sustainable plant/fungi/algae-based products, services and systems targeted at specific life stages to improve
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. The University of Surrey is an amazing place to work. Alongside our gorgeous campus setting, collegiate on-site atmosphere, and plentiful development opportunities, we also offer: Generous pension and annual leave
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entitlement of 33 days holiday Varied and supportive work environment Employee Assistance Programme – via BHSF RISE Generous pension (employers’ contribution up to 12%) How to apply Please complete our online
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take an active part in the development of these policies Ensure the use of equipment and materials in delivery of maintenance services are appropriate and meet current legislative standards. Keep up
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plans and campaigns, and enjoys reviewing stats to see where we can constantly develop and improve our output. As part of our central internal communications team, you will be delivering messages across a
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to understanding the role of metabolic pathways in the virulence and antimicrobial susceptibility of mycobacteria with the overall goal of developing novel anti-TB drugs. This is a multi-disciplinary collaborative
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will work alongside employability colleagues, academic staff, the Students’ Union and other student services to support students to build their skills and prepare themselves for their next steps after
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Communication Systems. This exciting opportunity will see the successful candidate undertake a range of Research and Development (R&D) activities in the field of Signal Processing for Future Communication Systems
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University. The candidate will develop and apply experimental and imaging techniques to characterise the pattern formation and mechanical deformation of the reconstituted active networks within confined, cell