Life sciences refer to the schools of science that study the structure and function of living organisms. Life sciences often have a specific focus on biological processes and phenomena relating to humans, animals, microorganisms and plants. Life sciences is an interdisciplinary field of research in which expertise from different fields is drawn on to better understand humans, as well as the ecological interaction between humans and nature (reference and more information: https://snl.no/livsvitenskap).

Life sciences lead to new solutions for the health sector (animal and human), as well as value creation for the Norwegian economy, which is able to develop innovative new products, services and jobs.

Big data has become an important element in many areas of life sciences. Here, emphasis is placed on the use of computer science, as most of the tasks related to biological data analysis are highly repetitive or mathematically complex. The use of data mining is important in the analysis of data from sequencing, images from microscopes and other imaging platforms, phenotypical data, clinical data for the collection of data and knowledge development.

This course delves deeper into the intersection between artificial intelligence (AI) and life sciences. The course is designed for students with a background in AI and ML and provides an introduction to life sciences, enabling students to build a bridge between the two fields. The course covers the following topics:

• Introduction to the different data types in life sciences
• Integration of variable data types for generation of useful information
• Use of AI and ML in life science fields
• ML methods for genotype-phenotype correlation
• Methods for analysing clinical human data
• Computer-aided drug and vaccine development
• Data security and privacy in life sciences
• Examples from ongoing projects from human, animal and environmental research