Sort by
Refine Your Search
-
Listed
-
Category
-
Country
- United States
- United Kingdom
- Germany
- France
- Spain
- Sweden
- Netherlands
- Singapore
- Norway
- Denmark
- Portugal
- Poland
- Belgium
- Finland
- Italy
- Austria
- Ireland
- United Arab Emirates
- Luxembourg
- Switzerland
- Canada
- Hong Kong
- Czech
- Cyprus
- Estonia
- Australia
- China
- Morocco
- Romania
- Andorra
- Japan
- Latvia
- New Zealand
- 23 more »
- « less
-
Program
-
Field
-
the required test scripts in Python/Matlab. c) Propose a test plan and a test setup using semi-automated test procedures. Task 3: Test procedure validation (6 weeks) a) Conduct the proposed test plan
-
electrical or mechanical engineering Strong mathematical skills Experience in modelling energy systems Very good knowledge and experience in programming (e.g. Python, Matlab, C, C++) Fluent in written and
-
necessary Basic knowledge or interest in fluid dynamics and free-surface flows is required Candidates should have experience with scientific programming (e.g., using python, MATLAB, and C++) Experience and
-
, PCR machines, shaking incubators and plate readers. Coding skills in python or MATLAB are also advantageous, but not required. Equipment Utilized Physical Demands and Work Environment Physical Demands
-
optical systems and the use of lasers. Proficiency in data processing software e.g., Python, Matlab. Exhibits excellent professionalism and work ethics, initiative and self-motivation. Strong ability
-
-quality academic publications in the field of child language development; (e) be proficient in major programming languages commonly used in experimental linguistic research (e.g., R, MATLAB, Python); (f
-
mathematical foundation and programming skills in languages such as Python, Java, Julia, MATLAB, R, and/or C++. Expertise in one or more of the following: machine learning, deep learning, HPC, Docker/Singularity
-
contributions to peer-reviewed journals. Experience of programming (Python or MATLAB) for device control, data acquisition and analysis. A record of high-quality publications as leading author, as appropriate
-
proficiency in energy modeling platforms (PLEXOS, PROMOD, PowerSimm, or equivalent) – Strong quantitative and statistical analysis skills; proficiency in Python, R, MATLAB, or similar analytical software – Deep
-
engine dynamometer experiments, including instrumentation, data acquisition, and test planning Develop and maintain physics-based modeling tools, including custom solvers written in MATLAB, Python, Fortran