Sort by
Refine Your Search
-
Listed
-
Category
-
Country
- United States
- Portugal
- United Kingdom
- Germany
- France
- Sweden
- Netherlands
- Spain
- Norway
- Poland
- Belgium
- Denmark
- Canada
- Austria
- Australia
- Switzerland
- Singapore
- Czech
- Luxembourg
- Finland
- United Arab Emirates
- Japan
- Italy
- Romania
- Vietnam
- Morocco
- China
- Ireland
- Kyrgyzstan
- Russia
- Brazil
- Croatia
- Cyprus
- Hong Kong
- Lithuania
- Slovenia
- Andorra
- Estonia
- New Zealand
- Qatar
- Saudi Arabia
- South Africa
- Worldwide
- 33 more »
- « less
-
Program
-
Field
- Computer Science
- Economics
- Medical Sciences
- Engineering
- Science
- Biology
- Business
- Education
- Materials Science
- Mathematics
- Arts and Literature
- Psychology
- Environment
- Social Sciences
- Chemistry
- Humanities
- Law
- Earth Sciences
- Linguistics
- Sports and Recreation
- Electrical Engineering
- Physics
- Design
- Philosophy
- Statistics
- 15 more »
- « less
-
) integers. An extension or alternative is to use these Diophantine techniques to tackle problems in harmonic analysis or PDE, especially spectral multiplier estimates on compact manifolds and nilmanifolds
-
training in field. See Table 24B for the salary range for this position. A reasonable estimate for this position is $75,600 - $194,800. Please apply online at https://aprecruit.ucsf.edu/JPF05905 . Document
-
-depth expertise in Computer Vision and Photogrammetry. - Mastery of state-of-the-art Neural Rendering (NeRF, NeuS, SDF). - Knowledge of Photometric Stereo methods. Operational Skills: - Advanced
-
of principles and methods for moving people or goods. Interpersonal skills with all levels of customers and external stakeholders Knowledge and understanding of computer systems, tools and programs Ability
-
, computer vision, or forecasting. Proficiency with statistical computer languages such as Python or R. Proficiency with relational database systems (SQL) and object-based data stores. Ability to define and
-
. The successful candidate will work in an interdisciplinary team investigating the diffusion of radionuclides (U, Pu, Am) and decay products (Zr) through rock minerals triggered by colloids, as well as methods
-
innovative analysis methods and approaches applied to multimodal Developmental GTEx data types from both bulk and single-cell tissue analyses. We have chosen to focus on the human dGTEx data, but a selected
-
the superconducting quantum devices, control circuits, firmware, and methods required to make the quantum computer a reality. This development takes place is in a close, fruitful collaboration between experimentalists
-
Kinetics models - from simplified Point Kinetics to more detailed Space Kinetics approaches – and by integrating high-fidelity neutron physics calculations performed by Monte Carlo methods to generate
-
. High-plutonium content (20–30 wt.% Pu/[U+Pu]) mixed-oxide (MOX) fuel materials which are required for LFR-SMRs present fabrication challenges. Conventional sintering methods, developed for light-water