Sort by
Refine Your Search
-
Listed
-
Category
-
Employer
- Cranfield University
- University of Manchester
- University of Birmingham;
- University of Birmingham
- University of Cambridge;
- University of Warwick
- ;
- Imperial College London
- Newcastle University;
- The University of Manchester;
- University of East Anglia
- University of Exeter
- Aston University;
- Cranfield University;
- Imperial College London;
- King's College London Department of Engineering
- Loughborough University;
- Newcastle University
- The University of Edinburgh
- The University of Manchester
- University of Bradford;
- University of Bristol
- University of Cambridge
- University of Derby
- University of Liverpool
- University of Newcastle
- University of Nottingham
- University of Oxford;
- University of Plymouth
- University of Reading
- University of Reading;
- University of Sheffield
- University of Sussex;
- University of Warwick;
- 24 more »
- « less
-
Field
-
). Funds are also available for travel and other research expenses. Overview Material falling onto a black hole glows brightly in X-rays, lighting up the vicinity of the event horizon. This process happens
-
Research theme: "Next Generation Wireless Networks", "Signal Processing", "Machine Learning" UK only How to apply: uom.link/pgr-apply-2425 This PhD project aims to design novel resource allocation
-
that target diverse biological processes. These include DNA replication, transcription, translation and cell signaling. To exemplify, nucleoside analogues possess an accomplished history within therapeutic
-
random and deterministic systems and point configurations. Potential applications include lattices, point processes, random matrices, and random walks on groups. During the project you will work
-
handle to control biomolecular chemistry as their behaviour (e.g. binding interactions) can be programmed with electrochemical signals. Establishing electrochemical control over the interactions between
-
participation in the only set of telescopes currently able to identify new habitable rocky planets whose atmosphere can then be probed for evidence of biological processes. We use the SPECULOOS network
-
project will involve optimizing the trapping conditions—such as laser power, wavelength, and nanostructure geometry—to prevent photodamage while achieving strong signal enhancement. The project will also
-
at leading international conferences and publish in top-tier journals. The successful candidate will gain advanced expertise in multi-sensor fusion, signal processing, machine learning, and positioning
-
include training in computer science, human-computer interaction, etc. A Master’s degree is desirable. In addition, candidates for whom English is a second language should meet the University’s minimum
-
research group, which leads pioneering work in multi-sensor navigation, signal processing, and system integrity for aerospace, defence, and autonomous systems. The research will deliver a comprehensive