22 creative-interactive-display Postdoctoral positions at Technical University of Denmark in Denmark
Sort by
Refine Your Search
-
and creativity, be open and honest and to conduct research responsibly, be excited about large challenges and enjoy solving them, have an extraordinary drive towards achieving groundbreaking results
-
the project. Your main tasks will be: Develop and apply electromagnetic modelling techniques in combination with inverse design to study light-matter interactions in dielectric nanostructured optical surfaces
-
functionalization and a detailed knowledge about interactions between nanoparticles and living organisms? Are you looking for an ideal springboard for a future career as a scientist in either academia or in industry
-
, including artificial intelligence (AI), machine learning, internet of things (IoT), chip design, cybersecurity, human-computer interaction, social networks, fairness, and data ethics. Our research is rooted
-
Construction”, “Extended Realities for Workforce Training”, “Lifecycle Assessment”, “Human Robot Interaction”, “Additive Manufacturing/3D printing”, and/or “Automation and Robotics in Construction Production
-
Analytics Research Team The Multi-omics Network Analytics research lab (MoNA - https://multiomics-analytics-group.github.io/ ) is an international, dynamic, and creative team dedicated to getting a holistic
-
solutions and policy impacts. You will design and implement machine-learning algorithms that interact with your simulation framework for scenario discovery, building surrogate models of simulation outputs
-
and industries. We offer a vibrant, collegial, and team-oriented research environment with an international atmosphere encouraging creativity and ambitious research. Responsibilities and qualifications
-
artificial intelligence (AI), machine learning, internet of things (IoT), chip design, cybersecurity, human-computer interaction, social networks, fairness, and data ethics. Our research is rooted in basic
-
capability to model complicated magnetic systems for two reasons. First, all magnetic sources in a simulation interact, leading to computational resources scaling with the number of sources squared – which is