Tuesday, January 31, 2023

Brain DARPA studies. Brain as a battlefield.

 EU 
The Human Brain Project (HBP) is a large ten-year scientific research project, based on exascale supercomputers, that aims to build a collaborative ICT-based scientific research infrastructure to allow researchers across Europe to advance knowledge in the fields of neuroscience, computing, and brain-related medicine.[2]

The Project, which started on 1 October 2013, is a European Commission Future and Emerging Technologies Flagship. The HBP is coordinated by the École Polytechnique Fédérale de Lausanne and is largely funded by the European Union.[3] The project coordination office is in Geneva, Switzerland.[4]

Peer-reviewed research finds that the public discussion forum (HBP forum) has been actively utilized and showed resilience during the Covid-19 pandemic.[5] The HBP forum has been most actively utilized and useful for solving questions related to programming issues and close to HBP core areas.

See also
Blue Brain Project
BRAIN Initiative, US initiative
Brain/MINDS
China Brain Project
Decade of the Brain
Decade of the Mind
Human Connectome Project
List of artificial intelligence projects
Noogenesis
SpiNNaker


US Obama era 

The White House BRAIN Initiative (Brain Research through Advancing Innovative Neurotechnologies) is a collaborative, public-private research initiative announced by the Obama administration on April 2, 2013, with the goal of supporting the development and application of innovative technologies that can create a dynamic understanding of brain function.[2][3][4][5][6]

This activity is a Grand Challenge focused on revolutionizing our understanding of the human brain, and was developed by the White House Office of Science and Technology Policy (OSTP) as part of a broader White House Neuroscience Initiative.[7] Inspired by the Human Genome Project, BRAIN aims to help researchers uncover the mysteries of brain disorders, such as Alzheimer's and Parkinson's diseases, depression, and traumatic brain injury (TBI).

Participants in BRAIN and affiliates of the project include DARPA and IARPA as well as numerous private companies, universities, and other organizations in the United States, Australia, Canada, and Denmark.[8]

The BRAIN Initiative reflects a number of influences, stemming back over a decade. Some of these include: planning meetings at the National Institutes of Health that led to the NIH's Blueprint for Neuroscience Research;[9] workshops at the National Science Foundation (NSF) on cognition, neuroscience, and convergent science, including a 2006 report on "Grand Challenges of Mind and Brain";[10] reports from the National Research Council and the Institute of Medicine's Forum on Neuroscience and Nervous System Disorders, including "From Molecules to Mind: Challenges for the 21st Century," a report of a June 25, 2008 Workshop on Grand Challenges in Neuroscience.;[11] years of research and reports from scientists and professional societies; and congressional interest.

One important activity was the Brain Activity Map Project. In September 2011, molecular biologist Miyoung Chun of The Kavli Foundation organized a conference in London, at which scientists first put forth the idea of such a project.[4][12] At subsequent meetings, scientists from US government laboratories, including members of the Office of Science and Technology Policy, and from the Howard Hughes Medical Institute and the Allen Institute for Brain Science, along with representatives from Google, Microsoft, and Qualcomm, discussed possibilities for a future government-led project.[2]

Other influences included the interdisciplinary "Decade of the Mind" project led by James L. Olds, who is currently the Assistant Director for Biological Sciences at NSF,[13][14] and the "Revolutionizing Prosthetics" project at DARPA, led by Dr. Geoffrey Ling and shown on 60 Minutes in April 2009.[15]

Development of the plan for the BRAIN Initiative within the Executive Office of the President (EOP) was led by OSTP and included the following EOP staff: Philip Rubin, then Principal Assistant Director for Science and leader of the White House Neuroscience Initiative; Thomas Kalil, Deputy Director for Technology and Innovation; Cristin Dorgelo, then Assistant Director for Grand Challenges, and later Chief of Staff at OSTP; and Carlos Peña, Assistant Director for Emerging Technologies and currently the Division Director for the Division of Neurological and Physical Medicine Devices, in the Office of Device Evaluation, Center for Devices and Radiological Health (CDRH), at the U.S. Food and Drug Administration (FDA).[16][17]

On April 2, 2013, at a White House event, President Barack Obama announced The BRAIN Initiative, with proposed initial expenditures for fiscal year 2014 of approximately $110 million from the Defense Advanced Research Projects Agency (DARPA), the National Institutes of Health (NIH), and the National Science Foundation (NSF).[4][5][6] The President also directed the Presidential Commission for the Study of Bioethical Issues to explore the ethical, legal, and societal implications raised by the initiative and by neuroscience in general. Additional commitments were also made by the Allen Institute for Brain Science, the Howard Hughes Medical Institute, and The Kavli Foundation. The NIH also announced the creation of a working group of the Advisory Committee to the Director, led by neuroscientists Cornelia Bargmann and William Newsome and with ex officio participation from DARPA and NSF, to help shape NIH's role in the BRAIN Initiative. NSF planned to receive advice from its directorate advisory committees, from the National Science Board, and from a series of meetings bringing together scientists in neuroscience and related areas

News reports said the research would map the dynamics of neuron activity in mice and other animals[3] and eventually the tens of billions of neurons in the human brain.[18]

In a 2012 scientific commentary outlining experimental plans for a more limited project, Alivisatos et al. outlined a variety of specific experimental techniques that might be used to achieve what they termed a "functional connectome", as well as new technologies that will have to be developed in the course of the project.[1] They indicated that initial studies might be done in Caenorhabditis elegans, followed by Drosophila, because of their comparatively simple neural circuits. Mid-term studies could be done in zebrafish, mice, and the Etruscan shrew, with studies ultimately to be done in primates and humans. They proposed the development of nanoparticles that could be used as voltage sensors that would detect individual action potentials, as well as nanoprobes that could serve as electrophysiological multielectrode arrays. In particular, they called for the use of wireless, noninvasive methods of neuronal activity detection, either utilizing microelectronic very-large-scale integration, or based on synthetic biology rather than microelectronics. In one such proposed method, enzymatically produced DNA would serve as a "ticker tape record" of neuronal activity,[1][19] based on calcium ion-induced errors in coding by DNA polymerase.[20] Data would be analyzed and modeled by large scale computation.[1] A related technique proposed the use of high-throughput DNA sequencing for rapidly mapping neural connectivity.[21]

Timeline
The timeline proposed by the Working Group in 2014 is:[22]

2016–2020: technology development and validation
2020–2025: application of those technologies in an integrated fashion to make fundamental new discoveries about the brain

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