Sort by
Refine Your Search
-
Listed
-
Country
- United States
- United Kingdom
- France
- Italy
- Sweden
- Spain
- Germany
- Poland
- Singapore
- Belgium
- Portugal
- Denmark
- United Arab Emirates
- Australia
- Netherlands
- China
- Canada
- Worldwide
- Austria
- Hong Kong
- Ireland
- Malta
- Romania
- Bulgaria
- India
- Andorra
- Greece
- Japan
- Luxembourg
- Armenia
- Croatia
- Cyprus
- Czech
- Europe
- Finland
- Mexico
- New Zealand
- Slovakia
- 28 more »
- « less
-
Field
-
and clean datasets. Employ new and existing tools to interpret, analyze, and visualize multivariate relationships in data. Create databases and reports, develop algorithms and statistical models, and
-
artificial intelligence to atrial fibrillation and associated comorbidities, collaborating with Cardiology researchers to support the development and evaluation of artificial intelligence algorithms
-
RN uses established triage algorithms to guide the assessment and interventions that need to be taken. The James Clinical Call Center Triage Nurse is responsible to document the assessment and
-
. This includes modelling, data analysis and algorithmic development, as well as experimental validation of models and algorithms. It contributes to the performance assessment of space missions. More specifically
-
The Associate in Research will be responsible for using and developing computational algorithms to analyze single-cell and spatial-omics datasets. Specifically, we have multiple projects where we are generating
-
logical perspectives. Key areas of interest include proof complexity, circuit complexity, communication complexity, meta-complexity, and their connections to algorithms. Lund University is located in
-
be found at https://datascience.cancer.gov/collaborations/nci-department-energy-collaborations ; https://www.cincinnatichildrens.org/research/divisions/d/decoding-mental-health/programs/mental-health
-
? Not funded by a EU programme Is the Job related to staff position within a Research Infrastructure? No Offer Description The project focuses on the development of advanced models and algorithms
-
applications on commercially available quantum platforms. Example directions include Rydberg-atom interactions and collective decay, quantum many-body dynamics, and implementing fault-tolerant quantum algorithms
-
of autonomous monitoring units, including image sensors, edge computing units, batteries, solar panels, and LoRa/LTE communication modules. • Implementation of anonymous visitor detection and counting algorithms