166 postdoc-in-postdoc-in-automation-and-control positions at University of Sheffield
Sort by
Refine Your Search
-
Listed
-
Category
-
Program
-
Field
-
cause a harmful outcome instead. In this project, we will explore how the indirect basis of microbial interactions impacts their emergent ecology. Using a combination of ecological theory and controlled
-
of stable fusion pores in adrenal chromaffin cells to facilitate peptide secretion. The aim of this project is to identify the signaling events and molecules controlling exocytosis which are regulated by GLP
-
will enable the advanced monitoring and computing techniques of power systems, as well as to create a resilient control and operation for both energy network and distributed energy sources. This PhD
-
fluidised bed granulation for powder-based pharmaceutical manufacturing. Fluidised bed granulation processes remain a challenge to design, scale up and control, and this can result in high costs
-
high tech industries. They are the basis of flexible solar panels and electronics, as well as biosensors for medical diagnostics. To automate the production of these membranes we need a real-time virtual
-
analytics techniques (machine learning) for process control and optimisation. In this project, you will focus on achieving metamaterial behaviour through phase control within the additive manufacturing build
-
round Details This project explores how machine learning and artificial intelligence can transform the scholarly digital editing process, not only by potentially automating and enhancing editorial
-
technology that not only enhances signal coverage but also revolutionizes the way we control antennas, reducing system complexity, and paving the way for high-speed, efficient mobile communications. Project
-
regenerative capacity of the stem cells declines; this contributes to the aging process and ultimately to the loss of muscle mass in elderly people. Cell signalling plays a key role in controlling the balance
-
the polymer for 3D printing of PHA-based patches with controlled temporal and spatial drug release in the EPSRC project. The KRUK grant will involve the production of 3D models using 3D printing, melt electro