RT @leoschilbach: PLOS Computational Biology: Computational Phenotyping of Two-Person Interactions Reveals Differential Neural Response to…
RT @leoschilbach: PLOS Computational Biology: Computational Phenotyping of Two-Person Interactions Reveals Differential Neural Response to…
PLOS Computational Biology: Computational Phenotyping of Two-Person Interactions Reveals Differential Neural Response to Depth-of-Thought https://t.co/rLSJrPPp5R
MT @leoschilbach interpersonal prediction errors & computational theory of mind #ToM http://t.co/2nNSYU08uo …
interpersonal prediction errors http://t.co/FtItUqTFz2
Computational Phenotyping of 2People Interactions Reveals Differential Neural Response to Depth-of-Thought http://t.co/ZkRXf0C1cQ #futuremed
Hallmarks of psychiatric illness revealed through 'computational phenotyping' http://t.co/kbcKPX0cQA #healthinnovations #hcsm #hcsmeu #fdasm
Computational Model of ToM reveals correlational data about brain function and "depth-of-thought" between two groups. http://t.co/TNqN6T5d
Computational Phenotyping of Two-Person Interactions Reveals Differential Neural Response to Depth-of-Thought. http://t.co/D7kW4beS
Computational Phenotyping of Two-Person Interactions Reveals Differential Neural Response to Depth-of-Thought. http://t.co/D7kW4beS
Computational Phenotyping of Two-Person Interactions Reveals Differential Neural Response to Depth-of-Thought. http://t.co/D7kW4beS
New article on neural computations underlying strategic interactions: http://t.co/hGWZrJzR #PLOSCompBio #Neuroscience
Computational Phenotyping of Two-Person Interactions Reveals Differential Neural Response to Depth-of-Thought http://t.co/5q213Cjv
Computational Phenotyping of Two-Person Interactions Reveals Differential Neural Response to Depth-of-Thought http://t.co/i8LlgNFG
Computational Phenotyping of Two-Person #Economics Exchanges http://t.co/TxxFg0Dr via @PLOSCompBiol #ToM
Computational Phenotyping of 2-Person Interactions Reveals Differential Neural Response to Depth-of-Thought http://t.co/qDqcaOkh #futuremed