Sort by
Refine Your Search
-
Listed
-
Country
-
Employer
- Technical University of Munich
- Technical University of Cluj-Napoca
- The University of Iowa
- Universite de Moncton
- University of Newcastle
- Duke University
- Institute for bioengineering of Catalonia, IBEC
- KINGS COLLEGE LONDON
- Tampere University
- University of A Coruña
- Brookhaven Lab
- CNRS
- CSIRO
- Drexel University
- FEUP
- Friedrich-Alexander-University Erlangen-Nürnberg
- IMEC
- Imperial College London
- King's College London
- McGill University
- New York University
- THE UNIVERSITY OF HONG KONG
- Universitat Politecnica de Valencia
- University of Antwerp
- University of Florida
- University of Oslo
- University of Pittsburgh
- 17 more »
- « less
-
Field
-
simulations and perform computational experiments using high-level programming languages (e.g., Python, MATLAB, R, or Julia). Curate and integrate experimental data to calibrate and validate models, including
-
the position, the required skillset includes: Strong background in electromagnetic and optical modeling using tools including Ansys, Comsol, Matlab, and other methods. Expertise in wet chemical synthesis
-
measure leg-generated forces. Investigate relationships between neural activity, muscle properties, and joint movement. Code in MATLAB or Python for data analysis, modeling, and tracking tasks. Assist with
-
, Matlab, Python or R) Demonstrated a high level of expertise in analysis of large and complex datasets Detail-oriented and excellent communication skills Excellent command of written and spoken English
-
Experience Experience developing research software using appropriate languages and environements (Python, Julia, Matlab) Knowledge of optimisation problem formulations and solution methods Experience of risk
-
and scored: A. Knowledge of Matlab, Python, R and/or C++ (advanced level). These will be assessed based on accredited training hours (0.5 points for every 10 hours of training, up to 5 points for each
-
Matlab, Python, R and/or C++ (advanced level). These will be assessed based on accredited training hours (0.5 points for every 10 hours of training, up to 5 points for each course) and accredited project
-
(especially fMRI), experimental design, data analysis and programming (e.g., SPM, MATLAB, Python, R,…), scientific writing, and very good organization and communication skills. The ideal candidate is able
-
. System Modeling: Develop and refine photonic system models incorporating key quantum mechanisms. Use simulation tools (Lumerical, Synopsys, Matlab, Python, …) to validate architectural feasibility and
-
mathematics, computational biology, quantitative biology, or a related field. Experience in ABM development and ODE/PDE modeling and analysis. Strong programming skills (Python, Julia, Matlab, C++, or similar