Chapter
Bringing Language Out of Paralyzed People
1:40:51 - 1:48:51 (07:59)
This podcast talks about the incredible work of using brain-machine interfaces to help paralyzed people communicate through neural activity translation into hardware, wires, and artificial non-biological tools. The work has gone beyond allowing people to think about what they want to say, and research is now focusing on making interactions between these people in the real world more elaborate and more real.
Clips
The brain's ability to store and retrieve words is an impressive feat, particularly when considering the speed and fluency with which we speak.
1:40:51 - 1:42:05 (01:13)
Summary
The brain's ability to store and retrieve words is an impressive feat, particularly when considering the speed and fluency with which we speak. Despite years of research, the exact mechanisms of how the brain accomplishes this remain unclear.
ChapterBringing Language Out of Paralyzed People
EpisodeDr. Eddie Chang: The Science of Learning & Speaking Languages
PodcastHuberman Lab
Despite brain injuries that affect speech and language, people can still remember long-term memories and motor skills through the help of the Broca's and Wernicke's areas of the brain.
1:42:05 - 1:44:07 (02:02)
Summary
Despite brain injuries that affect speech and language, people can still remember long-term memories and motor skills through the help of the Broca's and Wernicke's areas of the brain.
ChapterBringing Language Out of Paralyzed People
EpisodeDr. Eddie Chang: The Science of Learning & Speaking Languages
PodcastHuberman Lab
This podcast features a researcher who has achieved incredible recognition in bringing language out of paralyzed people by essentially translating the neural activity of areas of the brain that would produce speech into hardware, wires and other artificial non-biological tools.
1:44:07 - 1:48:51 (04:43)
Summary
This podcast features a researcher who has achieved incredible recognition in bringing language out of paralyzed people by essentially translating the neural activity of areas of the brain that would produce speech into hardware, wires and other artificial non-biological tools. The researcher discusses making the interactions between paralyzed people in the real world more elaborate and real.