The algorithms are unique in that they take a holistic approach to action anticipation, combining visual data – where an athlete is located on the court – with information like an athlete’s specific role on the team.
Halomine and Inso Biosciences – both from Cornell incubators – have received $3 million in New York state grants to help thwart disease outbreaks and expand the state’s life science industries.
Although geographically remote, Cornell and Iceland are close in spirit, an affinity that will be on display when the president of Iceland, Guðni Th. Jóhannesson, visits Cornell’s Ithaca campus Nov. 10-11.
A Cornell team has developed a way to spatially map the entire spectrum of RNA in a cell’s transcriptome, revealing the role of previously elusive RNA in skeletal muscle regeneration and viral myocarditis in mice.
As surveying the cosmos for the new James Webb Space Telescope gets hot, Cornell researchers have modeled and synthesized lava in order to discover far-away, volcanic exoplanets.
A Cornell-led collaboration identified an unusual behavior of superfluid helium-3 when it undergoes a phase transition between two different superfluid states – a transition that theoretically shouldn’t happen reliably.
At the upcoming Conference of the Parties – best known as COP27 – 11 Cornell students will help delegations from small countries gain a stronger environmental voice.
A special type of cell, called an osteocyte, may hold the key to some of the mysteries of osteoporosis. A research group led by Karl Lewis, assistant professor of biomedical engineering, is studying osteocytes in unique new ways.
The team created and tested a new imaging approach which integrates information about where objects might be located with sonar processing algorithms that decide the optimal views.