Sort by
Refine Your Search
-
Listed
-
Category
-
Country
- United States
- France
- United Kingdom
- Portugal
- Germany
- Poland
- Sweden
- Singapore
- Belgium
- Czech
- Netherlands
- Spain
- Denmark
- Norway
- Canada
- Switzerland
- Austria
- Finland
- Ireland
- Italy
- Australia
- Croatia
- Japan
- Luxembourg
- Malta
- Romania
- Saudi Arabia
- Slovakia
- Slovenia
- Taiwan
- United Arab Emirates
- Worldwide
- 22 more »
- « less
-
Program
-
Field
-
Skip to Main Content Press Control+M to start dragging object ptnbsid=5SIrk6h6fqPeqQ5O81FWmenvhTk%3d Back Accessibility Enable Screen Reader Mode Keyboard Shortcuts Accessibility Help Job
-
volumetric 3D/4D microscopy data analysis tools. Experience with high performance compute environments (cloud-based and slurm/lsf clusters) and model deployment platforms (e.g., Kubernetes, AWS SageMaker
-
studies and post-doctoral periods. b) Relevant experience in cell and tissue culture (2D and 3D), molecular biology, and the development of in vitro 3D models based on 3D bioprinting. Experience in
-
manipulations. Assay Development: Support the development of cellular and biochemical assays to complement in vivo findings. Data Analysis & Interpretation: Analyze complex datasets from in vivo and in vitro
-
ovarian cancer. The laboratory has about 18 members that study ovarian cancer biology. We use a variety of cutting-edge methods, including spatial proteomics, spatial metabolomics, 3D organotypic cultures
-
Skip to Main Content Press Control+M to start dragging object ptnbsid=EHt1KwhxBucUUWrDAliW3gt%2bpzU%3d Back Accessibility Enable Screen Reader Mode Keyboard Shortcuts Accessibility Help Job
-
creation of tender documents, specifications, and requirement structures. 2D and 3D spatial reasoning, including general arrangement exploration, layout optimization, and constraint-aware geometry generation
-
Instituto de Investigação e Inovação em Saúde da Universidade do Porto (i3S) | Portugal | about 1 month ago
, such as growth and invasion, will be determined. Using in vitro and ex vivo (3D) models of GBM–neuron interaction, based on human samples, the mechanisms by which neuronal activity promotes tumour growth
-
3D environments. • Design of a robust control architecture to ensure autonomous navigation using information from the optical localization system (development of estimation algorithms, use of observers
-
AQWA or equivalent) and finite element analysis software (e.g., Abaqus, ANSYS). Experience with stability. Experience in designing connectors or mechanical interfaces is a plus. Familiarity with 3D