Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Program
-
Field
- Medical Sciences
- Computer Science
- Economics
- Engineering
- Biology
- Business
- Science
- Education
- Physics
- Materials Science
- Mathematics
- Humanities
- Philosophy
- Earth Sciences
- Psychology
- Arts and Literature
- Linguistics
- Sports and Recreation
- Chemistry
- Environment
- Social Sciences
- Electrical Engineering
- Design
- 13 more »
- « less
-
spring 2026 for a research project at the Institute of Environmental Engineering (IFU), Chair Earth Observation at the ETH Zürich on Snow and ice parameter estimation using high frequency multi-modal SAR
-
and temporal patterns from multisource data, spatiotemporal data analysis and mining and model learning and physical parameter prediction. Responsibilities consist of conducting computer modeling
-
depth, snow water equivalent, and ice thickness, on rivers, lakes, and seas. The outcome of this research is expected to improve the estimation of target hydrological parameters by assimilation of GNSS-R
-
6 months, eventually renewable for equal periods of time or until the term of the project, with an estimated starting date on January 2026, according to article 13 of the Regulation and article 3
-
simulation environment. The chosen code will be then adapted and tuned for the purpose of estimating radiological impact assessments of accidental releases from LFR-SMRs. A large set of simulations for short
-
to facilitate perceptual learning of different stimulation patterns; and (iii) the development of advanced AI algorithms capable of converting camera input into real-time electrical stimulation parameters. In
-
National University of Science and Technology POLITEHNICA Bucharest, Pitesti Branch | Romania | 20 days ago
, dynamic behavior of converters, and the impact of electrical parameters on the performance of electrochemical systems is required. Experience in numerical modeling and computer simulation, using technical
-
problem aims at estimating model parameters from input data, having access to a model describing how to generate the observations if the parameters to estimate were known. For instance, in optical remote
-
key processes within novel micro-bioreactors. This includes accurately modeling fluid dynamics, mass transport (e.g., oxygen, nutrients, metabolites), and other relevant physical parameters influencing
-
to apply Website https://biology.ug.edu.pl/wydzial/oferty-pracy Requirements Research FieldBiological sciences » BiologyEducation LevelMaster Degree or equivalent Skills/Qualifications A candidate for the