Chaos and Control
Karl discusses the immense challenges of brain-computer interfaces, emphasizing that true integration requires a deep evolutionary connection to the system. While Lex sees potential in machine learning to navigate this chaos, he acknowledges the daunting engineering obstacles, particularly the intricate network of blood vessels in the brain. Both agree that while the problems are formidable, they remain hopeful that innovative engineering might one day overcome them.In this clip
From this podcast
Lex Fridman Podcast
Karl Friston: Neuroscience and the Free Energy Principle | Lex Fridman Podcast #99
Related Questions
I have a question about the episode Karl Friston: Neuroscience and the Free Energy Principle | Lex Fridman Podcast #99 and the clip Chaos and Control. I also have a question about the episode Dr. Lex Fridman: Machines, Creativity & Love | Huberman Lab Podcast #29 and the clip Human-Robot Relationships. As a Psychology and Neuroscience graduate student at King's College London, I am exploring the role of machine learning and brain-computer interfaces to expand on direct lineage reprogramming of glia, specifically GABAergic interneurons of the PV generated from NG2, for customized neurogenesis to support the treatment of brain injuries. If possible, I would love to get Dr. Huberman's perspective on the role of machine learning in the future as it pertains to tailored in vivo neural repair.
I have a question about the episode Dr. Lex Fridman: Machines, Creativity & Love | Huberman Lab Podcast #29 and the clip Human-Robot Relationships. As a Psychology and Neuroscience graduate student at King's College London, I am exploring the role of machine learning and brain-computer interfaces to expand on direct lineage reprogramming of glia, specifically GABAergic interneurons of the PV generated from NG2, for customized neurogenesis to support the treatment of brain injuries. If possible, I would love to get Dr. Huberman's perspective on the role of machine learning in the future as it pertains to tailored in vivo neural repair.