The Two-Brains Hypothesis: Towards a guide for brain-brain and brain-machine interfaces
Great advances have been made in signaling information on brain activity in individuals, or passing between an individual and a computer or robot. These include recording of natural activity using implants under the scalp or by external means or the reverse feeding of such data into the brain. In on...
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my.utm.590022017-02-01T01:21:16Z http://eprints.utm.my/id/eprint/59002/ The Two-Brains Hypothesis: Towards a guide for brain-brain and brain-machine interfaces Goodman, Geoffrey Poznanski, Roman R. Cacha, Lleuvelyn A. Bercovich, Dani QA75 Electronic computers. Computer science Great advances have been made in signaling information on brain activity in individuals, or passing between an individual and a computer or robot. These include recording of natural activity using implants under the scalp or by external means or the reverse feeding of such data into the brain. In one recent example, noninvasive transcranial magnetic stimulation (TMS) allowed feeding of digitalized information into the central nervous system (CNS). Thus, noninvasive electroencephalography (EEG) recordings of motor signals at the scalp, representing specific motor intention of hand moving in individual humans, were fed as repetitive transcranial magnetic stimulation (rTMS) at a maximum intensity of 2.0T through a circular magnetic coil placed flush on each of the heads of subjects present at a different location. The TMS was said to induce an electric current influencing axons of the motor cortex causing the intended hand movement: the first example of the transfer of motor intention and its expression, between the brains of two remote humans. However, to date the mechanisms involved, not least that relating to the participation of magnetic induction, remain unclear. In general, in animal biology, magnetic fields are usually the poor relation of neuronal current: generally "unseen" and if apparent, disregarded or just given a nod. Niels Bohr searched for a biological parallel to complementary phenomena of physics. Pertinently, the two-brains hypothesis (TBH) proposed recently that advanced animals, especially man, have two brains i.e., the animal CNS evolved as two fundamentally different though interdependent, complementary organs: one electro-ionic (tangible, known and accessible), and the other, electromagnetic (intangible and difficult to access)-a stable, structured and functional 3D compendium of variously induced interacting electro-magnetic (EM) fields. Research on the CNS in health and disease progresses including that on brain-brain, brain-computer and brain-robot engineering. As they grow even closer, these disciplines involve their own unique complexities, including direction by the laws of inductive physics. So the novel TBH hypothesis has wide fundamental implications, including those related to TMS. These require rethinking and renewed research engaging the fully complementary equivalence of mutual magnetic and electric field induction in the CNS and, within this context, a new mathematics of the brain to decipher higher cognitive operations not possible with current brain-brain and brain-machine interfaces. Bohr may now rest. World Scientific Publishing Co. Pte Ltd 2015 Article PeerReviewed Goodman, Geoffrey and Poznanski, Roman R. and Cacha, Lleuvelyn A. and Bercovich, Dani (2015) The Two-Brains Hypothesis: Towards a guide for brain-brain and brain-machine interfaces. Journal of Integrative Neuroscience, 14 (3). pp. 281-293. ISSN 0219-6352 http://dx.doi.org/10.1142/S0219635215500235 DOI:10.1142/S0219635215500235 |
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QA75 Electronic computers. Computer science Goodman, Geoffrey Poznanski, Roman R. Cacha, Lleuvelyn A. Bercovich, Dani The Two-Brains Hypothesis: Towards a guide for brain-brain and brain-machine interfaces |
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Great advances have been made in signaling information on brain activity in individuals, or passing between an individual and a computer or robot. These include recording of natural activity using implants under the scalp or by external means or the reverse feeding of such data into the brain. In one recent example, noninvasive transcranial magnetic stimulation (TMS) allowed feeding of digitalized information into the central nervous system (CNS). Thus, noninvasive electroencephalography (EEG) recordings of motor signals at the scalp, representing specific motor intention of hand moving in individual humans, were fed as repetitive transcranial magnetic stimulation (rTMS) at a maximum intensity of 2.0T through a circular magnetic coil placed flush on each of the heads of subjects present at a different location. The TMS was said to induce an electric current influencing axons of the motor cortex causing the intended hand movement: the first example of the transfer of motor intention and its expression, between the brains of two remote humans. However, to date the mechanisms involved, not least that relating to the participation of magnetic induction, remain unclear. In general, in animal biology, magnetic fields are usually the poor relation of neuronal current: generally "unseen" and if apparent, disregarded or just given a nod. Niels Bohr searched for a biological parallel to complementary phenomena of physics. Pertinently, the two-brains hypothesis (TBH) proposed recently that advanced animals, especially man, have two brains i.e., the animal CNS evolved as two fundamentally different though interdependent, complementary organs: one electro-ionic (tangible, known and accessible), and the other, electromagnetic (intangible and difficult to access)-a stable, structured and functional 3D compendium of variously induced interacting electro-magnetic (EM) fields. Research on the CNS in health and disease progresses including that on brain-brain, brain-computer and brain-robot engineering. As they grow even closer, these disciplines involve their own unique complexities, including direction by the laws of inductive physics. So the novel TBH hypothesis has wide fundamental implications, including those related to TMS. These require rethinking and renewed research engaging the fully complementary equivalence of mutual magnetic and electric field induction in the CNS and, within this context, a new mathematics of the brain to decipher higher cognitive operations not possible with current brain-brain and brain-machine interfaces. Bohr may now rest. |
| format |
Article |
| author |
Goodman, Geoffrey Poznanski, Roman R. Cacha, Lleuvelyn A. Bercovich, Dani |
| author_facet |
Goodman, Geoffrey Poznanski, Roman R. Cacha, Lleuvelyn A. Bercovich, Dani |
| author_sort |
Goodman, Geoffrey |
| title |
The Two-Brains Hypothesis: Towards a guide for brain-brain and brain-machine interfaces |
| title_short |
The Two-Brains Hypothesis: Towards a guide for brain-brain and brain-machine interfaces |
| title_full |
The Two-Brains Hypothesis: Towards a guide for brain-brain and brain-machine interfaces |
| title_fullStr |
The Two-Brains Hypothesis: Towards a guide for brain-brain and brain-machine interfaces |
| title_full_unstemmed |
The Two-Brains Hypothesis: Towards a guide for brain-brain and brain-machine interfaces |
| title_sort |
two-brains hypothesis: towards a guide for brain-brain and brain-machine interfaces |
| publisher |
World Scientific Publishing Co. Pte Ltd |
| publishDate |
2015 |
| url |
http://eprints.utm.my/id/eprint/59002/ http://dx.doi.org/10.1142/S0219635215500235 |
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1643654445837320192 |
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13.209306 |