Automated machine learning robot unlocks new potential for genetics research
MINNEAPOLIS/ST. PAUL (04/24/2024) - This technology will save labs time and money while enabling large-scale experiments.
Automated machine learning robot unlocks new potential for genetics research
Newswise — MINNEAPOLIS/ST. PAUL (04/26/2024) — Researchers at the University of Minnesota Twin Cities researchers have constructed a robot that uses machine learning to fully automate a complicated microinjection process used in genetic research.
Robot Boosts Genetic Research Via Automated Machine Learning
MINNEAPOLIS/ST. PAUL (04/26/2024) — University of Minnesota Twin Cities researchers have constructed a robot that uses machine learning to fully automate a complicated microinjection process used in genetic research.
Machine learning-powered robot streamlines genetic research process
MINNEAPOLIS/ST. PAUL (04/26/2024) — University of Minnesota Twin Cities researchers have constructed a robot that uses machine learning to fully automate a complicated microinjection process used in genetic research.
Researchers unveil automated embryo injection technology with broad application
The University of Minnesota Twin Cities academics have designed an artificial robot that, through machine learning, automates an intricate microinjection procedure of two different organisms that constitute the genetics course
Unique mini-microscope provides insight into complex brain functions
Researchers from the University of Minnesota Twin Cities College of Science and Engineering and Medical School have developed a unique head-mounted mini-microscope device that allows them to image complex brain functions of freely moving mice in….
New mini-microscope enables imaging of complex brain functions in freely moving mice.
Researchers from the University of Minnesota Twin Cities College of Science and Engineering and Medical School have developed a unique head-mounted mini-microscope device that allows them to image complex brain functions of freely moving mice in….
Mini-Microscope Allows Brain Imaging of Freely Moving Mice in Real Time
Although brain imaging is performed on head-fixed mice, recording neural activity in freely behaving mice has remained a challenge.
