Sort by
Refine Your Search
-
Listed
-
Category
-
Country
- United States
- United Kingdom
- France
- Portugal
- Spain
- Germany
- Netherlands
- Sweden
- Denmark
- Switzerland
- Italy
- Poland
- Singapore
- Czech
- Belgium
- United Arab Emirates
- Morocco
- Hong Kong
- Ireland
- Norway
- Vietnam
- China
- Finland
- Australia
- Austria
- Saudi Arabia
- Brazil
- Estonia
- Japan
- Malta
- Romania
- Canada
- Croatia
- Lithuania
- Macau
- Taiwan
- Worldwide
- 27 more »
- « less
-
Program
-
Field
-
the design and optimization of multistatic and multifrequency radar architectures for near-field 3D imaging. - Contribute to the electromagnetic modeling of radiating systems, wave-object interaction, and
-
numerical modelling tools, i.e. a depth-averaged (2DH) and a 3-dimensional (3D) model, in the TELEMAC modelling system (www.openTELEMAC.org ) to simulate the fluxes and fate of plastics in the Scheldt Estuary
-
systems, segmenting medical imaging data, and creating accurate 3D anatomical models for analysis and 3D printing. You’ll be working alongside multidisciplinary teams across clinical, research, and
-
research experience in an international context; Participation in scientific meetings and workshops (preferably with oral and poster communications); Experience in 2D, 3D and in vivo melanoma mouse models
-
on the layouts and integration schemes, 3D structures are simulated in TCAD then used to produce electrical compact models for both the device and the RC parasitics due to the metal interconnects. These models
-
waves still remains a challenging and important research topic, with applications ranging from modelling tsunamis, rogue waves, and ice floes to informing ship design and coastal management. The accurate
-
of movement quality after stroke using multimodal functional brain imaging and 3D human kinematics. This funded research brings together multidisciplinary expertise from Singapore Institute of Technology (SIT
-
optimization and aerodynamic modeling. Fabrication: Composite layup, 3D printing (FDM/SLA), and assembly of drone airframes. Testing: Wind tunnel, fatigue, and flight tests for mechanical and aerodynamic
-
Citrin Foundation (Registration Number: 15940318) 2 Allen Street, London-United Kingdom, W8 6BH | United Kingdom | 2 months ago
derived from human induced pluripotent stem cells (iPSCs), which offer clinical relevance and a more reliable disease model. Using 3D liver-like models derived from patient iPSCs and genetically modified
-
. Experience with sensory neuron differentiation, co-culture systems and/or 3D culture models is a strong advantage, as is a clear interest in modelling mechanisms of (chronic) pain. You bring a solid background