The innovative cell design is set to provide essential benefits to a broad range of research areas that rely on neutron studies of complex interfaces such as biological membrane science, antibiotic research and several topics in soft matter and polymer science. Specifically, within this project, two science cases will be addressed to validate the benefits of the novel sample environment.
Combined with insights into the social, environmental, economic and demographic context, our effort will yield a deep quantitative understanding of past pandemics that will allow us to draw a detailed picture of pandemic and epidemic diseases in the pre-modern era.
In this project we will use Artificial Intelligence (AI) and statistical models to aid the transition from a human experience-based management of RAS production to a knowledge-based automatic one. Feed management, feeding and feed waste is a major challenge to production. In marine aquaculture, video systems are widely used to observe the fish.
The NON-Fôr project aims to build upon the state-of-the-art knowledge from previous EU and National projects and develop improved practices in feed manufacturing technology to promote the use of third generation ingredients in critical life stages of Atlantic salmon - startfeeding, during smoltification and in post smolt production.
The DigiVet project will study how livestock data is currently used across the partner nations, and how technology, training, and regulatory frameworks might provide societal benefit by improving the public-interest uses of these data.
The CDI-NANO-RAS project aims at testing novel technologies for the control of off chemicals in RAS as well as purging systems. We hypothesise that the combined use of novel capacitive deionization (CDI) technology and photocatalytic nanotechnological surface coatings can provide an energetically efficient method for the control of off-taste development in RAS as well as in reducing the duration and water usage in pre-harvest purging. The overall aim is to develop cost effective solutions applicable for the modern RAS industry.
Drawing on unique access to large datasets of Nordic asylum case law from Denmark, Sweden and Norway, and an interdisciplinary team spanning law, computer science and medicine, NoRDASiL will produce a novel approach to answer two questions: What factors shape the production of national asylum decisions? and Why do asylum outcomes across similar cases differ so much from one another?