Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Program
-
Field
- Computer Science
- Engineering
- Medical Sciences
- Biology
- Economics
- Science
- Materials Science
- Mathematics
- Earth Sciences
- Business
- Chemistry
- Linguistics
- Environment
- Arts and Literature
- Electrical Engineering
- Physics
- Social Sciences
- Psychology
- Humanities
- Law
- Philosophy
- Education
- Sports and Recreation
- 13 more »
- « less
-
focused on deep-phenotyping of individuals with autism and controls including brain imaging (MRI, fMRI, DTI and EEG) and a battery of cognitive tests. Our group is currently developing new methods
-
and designs involving urban form, materiality, and nature-based solutions can provide thermal comfort throughout the year in a Nordic climate? Is it possible to predict dynamic outdoor thermal comfort
-
approaches capable of guiding experiments, interpreting results in real time, generating predictive models of materials synthesis processes, and refining experimental strategies under a Human-In-The-Loop
-
longer-lasting charging strategy for Li-ion cells using two complementary approaches. (1) By testing commercial cells under various controllable stress factors and integrating lifetime prediction models
-
crystallization from mixed salt solutions and elucidate salt weathering mechanisms at micro and macro scales in heritage materials. Your work will bridge the gap between theoretical predictions and real-world
-
solutions for vibration and noise control in lightweight structures (https://cordis.europa.eu/project/id/101227712 ). The project focuses on the development of Acoustic Black Hole (ABH) technologies
-
on the structure and dynamics of ring polymers in different topological environments, providing experimental evidence for phenomena predicted by theory and computer simulations. Small-angle neutron scattering (SANS
-
class material, discussing the text, predicting test questions, formulating ideas for class projects, or working on solutions to problems. Works on projects that support the program during their scheduled
-
Details The aim of this project is to combine nanomechanical methods with modelling (i) to develop quantitative, predictive models for the behaviour of molecules in sliding contacts, and (ii) to understand
-
to predict a good order or a good reduction strategy. The third direction will concern the search for tropical or valuated invariants capable of controlling computational complexity, in the spirit