Sort by
Refine Your Search
-
Listed
-
Country
-
Program
-
Field
-
appear to have greater edaphic specialization in the colder or drier parts of their distribution. Differences in growth potential across species may also be important; for example, greater overall carbon
-
Max Planck Institute for Biological Cybernetics, Tübingen | Bingen am Rhein, Rheinland Pfalz | Germany | 6 days ago
opportunity to apply novel genetic tools to study molecular brain function using optical, ultrasound and magnetic resonance imaging. Our interdisciplinary approach encourages researchers with different
-
different processing conditions. In collaboration with an industrial partner in aluminum manufacturing with an emphasis on special/premium products and sustainable processing, the research will contribute
-
databases and structured and unstructured data mining tools Knowledge of SAS, R, Python, and SQL, or data visualization software Knowledge of open/public/private databases HOW TO APPLY: Applicants should
-
AWS Management Console, AWS data storage (S3) and virtual machine (EC2) to enable research collaborators through Research Gateway. Enable AWS cloud infrastructure for different researchers within and
-
visualization Scientific programming in MATLAB and/or Python (10%) Scientific/engineering technical writing, for the purpose of sharing results in peer-reviewed academic journals Requirements Minimum Acceptable
-
statistical and geospatial analyses (e.g., using ArcGIS, SPSS, Stata, Python, R). Conduct cross-city comparative research Map and analyse the geographical distribution of eviction patterns within and across
-
QGG - Aarhus University seeks a postdoc researcher in sustainable breeding: developing simulation...
our team to advance this area and work on developing the tools and applying them to research projects covering different topics and species depending on the candidate’s interests and previous experience
-
) to reconstruct the sea surface height signal associated with different dynamic features: internal tide waves and mesoscale dynamics. The project is part of the Adopt A Crossover consortium, with the lead
-
quantum fields from disordered and complex media. Student researchers will be involved in different aspects of the projects including numerical and computational level to hands-on experimental work