Sort by
Refine Your Search
-
Listed
-
Category
-
Country
- United States
- United Kingdom
- France
- Portugal
- Germany
- Belgium
- Netherlands
- Sweden
- Poland
- Spain
- Norway
- Italy
- Singapore
- Austria
- Denmark
- Switzerland
- Luxembourg
- Romania
- United Arab Emirates
- Australia
- China
- Estonia
- Czech
- Finland
- Japan
- Canada
- Morocco
- Brazil
- Israel
- Hong Kong
- Ireland
- Taiwan
- Chile
- Croatia
- Greece
- Lithuania
- Sao Tome and Principe
- Slovenia
- 28 more »
- « less
-
Program
-
Field
- Computer Science
- Engineering
- Medical Sciences
- Economics
- Science
- Mathematics
- Biology
- Law
- Materials Science
- Chemistry
- Earth Sciences
- Business
- Physics
- Education
- Electrical Engineering
- Arts and Literature
- Environment
- Psychology
- Humanities
- Social Sciences
- Linguistics
- Sports and Recreation
- Philosophy
- Design
- 14 more »
- « less
-
, the UK Parliament, and various media outlets including the BBC, and its members have earned numerous international awards. Learn more at https://pinholab.cc.ic.ac.uk . Your goal: Develop advanced numerical
-
analyses), unit operations (comminution and separation processes) as well as system engineering approaches (modeling and simulation, geometallurgy). Experimental work is carried out in our well-equipped
-
(comminution and separation processes) as well as system engineering approaches (modeling and simulation, geometallurgy). Experimental work is carried out in our well-equipped mineral processing laboratory with
-
Research Framework Programme? Not funded by a EU programme Is the Job related to staff position within a Research Infrastructure? No Offer Description Gravitational waves Where to apply Website https
-
, through both experimental measurements to be carried out with different techniques, and vibro-acoustic numerical modelling. The aim of the research is to i) identify noise sources ii) define and test
-
will work with nonlinear partial differential equations, constitutive modelling, and numerical methods to simulate large-scale mass-movement events, with the aim of improving our understanding of flow
-
develop the data pre-processing and data-interpretation techniques. This will require the use of wave physics, numerical simulations, experimental laboratory work, and clever reviewing and interpretation
-
, and ICCV2025. His work has been published numerous times in top computer vision conferences and journals such as CVPR (x13), ECCV (x6), ICCV (x3), IJCV (x3) and PAMI (x1). His work received a best paper
-
of freedom per dimension d. Foundational kinetic models often have N∼256 and d≥6, making direct numerical simulation intractable with traditional approaches. Through innovative work combining machine learning
-
will be modelled by analytical and numerical approaches. Existing analytical approaches will be used as a tool to describe the behaviour of fire exposed TRC in tension, while numerical simulations will