Sort by
Refine Your Search
-
Listed
-
Category
-
Employer
- Cranfield University
- University of Exeter
- University of Birmingham
- University of East Anglia
- Newcastle University
- University of East Anglia;
- ;
- The University of Manchester;
- UCL
- University of Birmingham;
- University of Bristol
- University of Exeter;
- University of Nottingham
- Abertay University
- Bangor University
- Cranfield University;
- Edinburgh Napier University;
- Imperial College London;
- Loughborough University
- Swansea University
- The Institute of Cancer Research
- The Medicines And Healthcare Products Regulatory Agency;
- UNIVERSITY OF VIENNA
- University of Cambridge;
- University of Hull;
- University of Leeds
- University of Leeds;
- University of Newcastle
- University of Plymouth
- University of Sheffield
- University of Warwick;
- 21 more »
- « less
-
Field
-
capabilities in reasoning, planning, and generalisation, acquired through extensive pre-training, provide the foundation for a true cognitive engine capable of managing network complexity holistically
-
PhD Studentship: Distributed and Lightweight Large Language Models for Aerial 6G Spectrum Management
generation of wireless communication (6G) to extend network coverage, supporting diverse data-intensive applications such as immersive extended reality and autonomous systems. However, aerial 6G networks will
-
Almost all radar systems currently transmit from the same location. A drastic departure from this sensing architecture is distributed radar – enacted by a coherent network of spatially distributed
-
frequency regulation, energy scheduling, and overall smart grid system optimization. Moreover, such complex interconnections between power system dynamics, communication networks, and information
-
their applications. Using machine learning and related tools to enhance quantum memory advantages in stochastic simulation. Using advanced tensor network techniques to enhance the modelling of complex, memoryful open
-
, and processing conditions influence their behaviour, creating a vast and complex landscape that traditional experimentation cannot navigate efficiently. This project addresses this challenge by bringing
-
Distributed radar systems comprise a coherent network of spatially distributed sensors that can be independently transmitting, receiving, or both. By acting in unison, rather than in isolation
-
decision-making. Examples include crowd management and large-scale communication networks based on cellular or wireless sensors. For instance, during mass gatherings such as the sport matches (e.g
-
impacts and suboptimal decision-making. Examples include crowd management and large-scale communication networks based on cellular or wireless sensors. For instance, during mass gatherings such as the sport
-
modelling framework to predict key thermal hydraulic parameters for boiling flows within complex geometries at high heat flux conditions, relevant to the engineering design of thermal management elements