64 algorithm-development-"Multiple"-"Simons-Foundation"-"Prof"-"UNIS" positions at University of Cambridge in United Kingdom
Sort by
Refine Your Search
-
The Sustainable Innovation Lab (SIL) at the Centre for Human-Inspired Artificial Intelligence (CHIA) is seeking a part time (0.8 FTE) full-stack software engineer assistant experienced with both
-
developments such as novel algorithms to support logistics operations, novel automation approaches or the design and development of new digital support tools for logistics providers. Significant flexibility
-
. Initial analysis suggests recurrent selection of divergent types in multiple locations. The aim of this role is to complete this analysis and prepare a manuscript for submission for publication
-
at Cambridge. The Fellow will work under the supervision of the Principal Investigator and Director of LISA, with a view to developing LISA's research capacity in spatial analysis of housing inequality
-
The Hanin Lab is a new group based in the Department of Physiology, Development and Neuroscience at the University of Cambridge. Our research explores the molecular mechanisms underlying lactation
-
is dedicated to understanding the origins and progression of paediatric brain tumours and developing new therapeutic strategies. The lab combines genetic engineering, molecular biology, and
-
of clinical research studies using stable isotope tracer methodologies and analysis of the collected blood/tissue samples. Main duties include: Conduct bench work to prepare blood and tissue samples
-
both chemistry and biology to explore fundamental mechanisms of genome function (http://www.balasubramanian.co.uk ). Our projects involve developing and using cutting edge technologies in chemical
-
, develop business cases and more. At the 6-month point, students progress onto their interdisciplinary PhD research project, supervised jointly by two academics from two research groups. Usually, supervisors
-
dynamics and tissue morphogenesis during embryo development using cellular, molecular and mechanical approaches. Cell movements underlie tissue patterns and shapes. Using chick embryos as the model system