MICrONS

MICrONS
MICrONS
Commercial?	No
Type of project	Academic; Scientific (neuroscience)
Location	United States
Owner	IARPA
Established	2016
Funding	United States government, US$100 million
Website	www.iarpa.gov/index.php/research-programs/microns

The MICrONS program (Machine Intelligence from Cortical Networks) is a five-year project run by the United States government through the Intelligence Advanced Research Projects Activity (IARPA) with the goal of reverse engineering one cubic millimeter—spanning many petabytes of volumetric data—of a rodent's brain tissue and use insights from its study to improve machine learning and artificial intelligence by constructing a connectome.^[1]^[2] The program is part of the White House BRAIN Initiative.^[1]^[2]

Teams[]

The program has set up three independent teams, each of which will take a different approach towards the goal. The teams are led by David Cox of Harvard University, Tai Sing Lee of Carnegie Mellon University;^[1]^[2] and jointly by Andreas Tolias and Xaq Pitkow of the Baylor College of Medicine, Clay Reid of the Allen Institute for Brain Science, and Sebastian Seung of Princeton University.^[3]

The Cox team has aimed to build a three-dimensional map of the neural connections within the source tissue block using reconstructions from electron micrographs.^[3]

Technology and infrastructure for storing petabyte-scale volumetric data, including a cloud-based database, bossDB,^[4] were developed by the Johns Hopkins Applied Physics Lab.^[5]

Approach[]

The part of the brain chosen for the project is part of the visual cortex, chosen as a representative of a task – visual perception – that is easy for animals and human beings to perform, but has turned out to be extremely difficult to emulate with computers.^[1]^[2]

Cox's team is attempting to build a three dimensional mapping of the actual neural connections, based on fine electron micrographs.^[2] Lee's team is taking a DNA barcoding approach, in attempt to map the brain circuits by barcode-labelling of each neuron, and cross-synapse barcode connections.^[1] Tolias's team is taking a data-driven approach, assuming the brain creates statistical expectations about the world it sees.^[2]

References[]

^ ^a ^b ^c ^d ^e Cepelewicz, Jordana (March 8, 2016). "The U.S. Government Launches a $100-Million "Apollo Project of the Brain"". Scientific American. Springer Nature America. Retrieved November 27, 2018.
^ ^a ^b ^c ^d ^e ^f Emily, Singer (April 6, 2016). "Mapping the Brain to Build Better Machines". Quanta Magazine. Simons Foundation. Retrieved November 27, 2018.
^ ^a ^b Gleeson, Alfie; Sawyer, Abigail (October 2018). "Mapping a Brain". BioTechniques (Paper). 65 (4): 181–5. doi:10.2144/btn-2018-0142. PMID 30284931.
^ "BossDB". bossdb.org. Retrieved December 31, 2018.
^ "boss". Retrieved November 27, 2018. The Boss is a cloud based storage service developed for the IARPA MICrONS program.

External links[]

MICrONS Homepage

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[SciAmMICrONS-1] Cepelewicz, Jordana (March 8, 2016). "The U.S. Government Launches a $100-Million "Apollo Project of the Brain"". Scientific American. Springer Nature America. Retrieved November 27, 2018.

[QuantaMICrONS-2] ^ ^a ^b ^c ^d ^e ^f Emily, Singer (April 6, 2016). "Mapping the Brain to Build Better Machines". Quanta Magazine. Simons Foundation. Retrieved November 27, 2018.

[:0-3] Gleeson, Alfie; Sawyer, Abigail (October 2018). "Mapping a Brain". BioTechniques (Paper). 65 (4): 181–5. doi:10.2144/btn-2018-0142. PMID 30284931.

[4] "BossDB". bossdb.org. Retrieved December 31, 2018.

[5] "boss". Retrieved November 27, 2018. The Boss is a cloud based storage service developed for the IARPA MICrONS program.

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