Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Program
-
Field
-
facilities, including advanced microscopy, controlled environment growth rooms, genomics, proteomics, and metabolomics platforms. • Opportunities to work across model and crop species, including Arabidopsis
-
breakdown, humanity urgently needs to design technologies to capture and store carbon. A widely proposed ‘nature-based’ solution is the enhancement of photosynthetic carbon-capture by plants but with a
-
management, control and reporting throughout the project lifecycle for relevant individuals to be updated on project progress. Inputting, ordering and interrogating finance data in order to deliver projects
-
limiting factor in the current BMI technology is a high mental workload required for controlling the robot. To reduce the mental workload of the user, we are interested in using principles of the adaptive
-
), and the apparent viscosity at this scale, results in propulsion strategies that often mimic those found in nature at this scale. Biological systems are effectively powered via chemical reactions, and so
-
into an industrial setting, contributing to new product development and enhanced commercial capability. This is a unique opportunity to play a central role in driving innovation in a growing, high-impact sector
-
Status, distribution, and dynamics of marine biodiversity
-
). Access to cutting-edge facilities, including advanced microscopy, controlled environment growth rooms, genomics, proteomics, and metabolomics platforms. Opportunities to work across model and crop species
-
to explore include mono-chromatic and multi-chromatic illumination, structured illumination, and telecentric illumination distortions. Computer based image analysis approaches will be developed, including
-
on foundational studies of feedback control's robustness in the presence of uncertainty and disturbances. The central role of feedback, a well-explored concept in dynamical systems theory, will be harnessed