Research Focus
Learning requires trying new things, evaluating the outcomes, and modifying future performance. We are interested in how these processes are implemented in the brain. To distinguish general principles from behavior-, effector-, and species-specific solutions to motor control problems, we study vocal communication and social interaction in both songbirds and parrots, two species with distinct behaviors, learning capacities and neural circuitry. We also compare neural mechanisms by which mice aim their limbs and tongues. We combine electrophysiology, optogenetics, and machine learning-guided behavioral analysis. Our guiding philosophy is that comparative approaches in systems neuroscience, though rare, are necessary to discover core functions of cortex, basal ganglia and cerebellum - brain regions that go awry in disorders such as Parkinson's, dystonia, and ADHD.
In the news
- Parrots, songbirds have evolved distinct brain mechanisms, Klarman Fellow finds
- As Pew investigator, Goldberg to study how animals feed young
- The Neurobiology Of Changing Priorities In A Songbird
- When needs compete, love trumps thirst
- NBB Awards 2022-23
- Klarman Fellow studies vocal learning in parrots
- Fruit flies use two muscles to control pitch for stable flight
- Goldberg shares research at Russekoff lecture
- Cornell joins Schmidt AI in Science postdoc research initiative
- A&S announces third cohort of Klarman Fellows
- AI innovators to speak at Cornell BrAIn symposium Dec. 9-10
- Mice licking could reveal mysteries of the human brain
- $2M in New Frontier Grants boost high-impact A&S research
- Alumna chosen for Soros Fellowship for New Americans
- Vikram Gadagkar receives award from Society for Neuroscience