I hope this topic is not forgot - it should never be.
Today I wish share here what's going in the best university of Russia.
First and foremost, 60% of personal of Moscow State University (msu.ru) are to be vaccinated against their will by the order of the director Sadovnichiy.
"Due to the ongoing threat of spread of a new coronavirus infection (COVID-19) at Moscow State University, in accordance with decrees of the Mayor of Moscow and in order to implement the order of the Chief State Sanitary Inspector for the city of Moscow dated June 15, 2021 ¹ 1 "On vaccinating certain groups of citizens on epidemic indications" by order of the Rector of Moscow State University dated June 17, 2021 ¹ 623, the structural divisions of the University must ensure second part of the vaccine by July 15, 2021 to prevent new coronavirus infections in the Moscow City. It must be done by non less than 60% of all university personal.
There will also be increased information and education work among employees and students on the prevention of new coronavirus infection with the involvement of employees of the IHEC MSU and other medical professionals."
https://www.msu.ru/news/o-neotlozhnykh-merakh-napravlennykh-na-predotvrashchenie-rasprostraneniya-covid-19.html
Did you notice this number - 60%? I think it's in no way a coincidence.
Then, their latest investigations are very close to BRAINternet I spoke of in the previous posts. Looks like in all the world Yehuborim are investing into reading thought and using the device to rule the brain, while presenting it to the masses as using the brain to rule the device. Provided how it is timed with the mandatory vaccines, Sputnik V might have anything in itself that could be read by a device.
"Physiologists have learned to see internal speech phonemes on an electroencephalogram
Researchers at Moscow State University, as part of the activities of the Brain, Cognitive Systems and Artificial Intelligence research school, have reported the results of an experiment to solve the problem of recognising inner speech words and sentences. The work is published in the journal Biologically Inspired Cognitive Architectures Meeting https://link.springer.com/chapter/10.1007/978-3-030-65596-9_13 (English)
Internal speech recognition is a promising technology that may find application in the development of brain-computer interfaces and significantly help those suffering from neurodegenerative diseases. Research in this area is in its early stages and is associated with practical value, which makes it relevant. It is known that internal pronunciation can be recovered from electroencephalogram data, as it allows recording the specific activity associated with this process.
The purpose of this work is to construct and implement an algorithm for feature extraction and classification of Russian phonemes from electroencephalograms recorded during the internal pronunciation of phonemes. Similar studies are being actively pursued abroad, but at the moment there is no information in open sources about such works for the phonemes of the Russian language. In the course of the work, an algorithm for feature extraction and classification of the internal pronunciation of Russian phonemes was constructed and tested, the accuracy of which showed results comparable to other studies.
"In this work, we conducted experiments to classify Russian language phonemes in internal pronunciation based on electroencephalogram (EEG) data and obtained results comparable to those in foreign studies. A number of conclusions were drawn on how best to collect, process and analyse this kind of data. The main result is the demonstrated ability to recognize Russian phonemes from EEG data. This is a step towards solving the problem of word and sentence recognition, which will in fact make it possible to "read a person's mind". However, this can be achieved with better algorithms for cleaning the data from unnecessary artefacts and using additional sources of information, such as electromyography," said Evgeny Ilyushin, a specialist of the Department of Information Security at the Moscow State University.
Brain-computer interface (BCI)
Theoretical and experimental development of the BCI problem is the basic project of the Laboratory of Neurophysiology and Neuro-Computer Interfaces (former Human Brain Research Group - HBRI) at the Department of Human and Animal Physiology of the Faculty of Biology of M.V. Lomonosov Moscow State University.
Professor Alexander Yakovlevich Kaplan, Doctor of Biological Sciences, is the head of the laboratory and supervises IMC projects at MSU.
This work was supported by grant #1110034 from the Skolkovo Foundation.
The Brain-Computer Interface (BCI)* is a technology for controlling "the power of thought". With the help of this technology, the human brain is able to form commands for the computer directly, without the use of muscles, based on its own electrical activity (EEG)."
Source http://brain.bio.msu.ru/bci_r.htm
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