February 3-7, 2024
Boston Convention and Exhibition Center
Boston, MA, USA
February 3-7, 2024
Boston Convention and Exhibition Center
Boston, MA, USA
Automated science uses AI to plan, execute and interpret experiments without human intervention. Automated science platforms combine three technologies: laboratory robots that perform physical experiments, a machine learning model that predicts results and an AI agent that plans future experiments. This course introduces all three technologies and shows how they fit together into a closed-loop, autonomous system. The course also emphasizes the interfaces between technologies, e.g., how to modify machine learning models for use with a planning agent or the liquid handling challenges that arise from AI-planned experiments. Case studies in biology and chemistry will highlight state-of-the-art automated science systems.
Attendees will learn from instructors who have assembled automated science pipelines in biology and chemistry. The course requires only a basic understanding of statistics and laboratory automation. Practitioners with expertise in one technology (e.g., machine learning or lab automation) are encouraged to attend and learn how to combine their knowledge with other parts of an automated science platform.
Paul Jensen, Ph.D.
University of Michigan
Paul Jensen is an assistant professor of biomedical engineering at the University of Michigan. He leads a research group studying the oral microbiome using artificial intelligence, laboratory automation and high-throughput genomics. Jensen also teaches undergraduate and graduate courses in linear algebra, machine learning and automated experiment design.
Mark Hendricks, Ph.D.
Whitman College
Mark Hendricks is an assistant professor in the Department of Chemistry at Whitman College. His research aims to understand the synthesis of nanomaterials and develop automation tools and artificial intelligence to gain insights into the synthesis of metallic nanocrystals. Hendricks also teaches physical, materials, and general chemistry at Whitman and has developed lab automation modules for the undergraduate chemistry curriculum.