Open-source rTMS device design, part 4
by quicksilv3rflash
2019-03-17: Good news. The prototype is working. Now, it's certainly in no condition to ship... but it's finally working! I personally am greatly relieved — the feeling of having already accepted preorder money to buy parts to build something that isn't yet functional is pretty distressing to me. I don't know how all those people on kickstarter could do it; I guess I just don't have the right personality type for selling false promises. The trouble with engineering, of course, is that until the prototype is tested and working (today!) you can never be really certain that your plans will work. So what now? Well, I still need to do more tests. All I've done is fire the thing up and verify that it sounds right (the pulses are audible, it's a low-frequency buzz currently set at 33Hz for testing), and check that the capacitor voltages are correct. I need to use an inductive current probe to get pictures of the output current waveform, and put the whole circuit into a simulator, and get the simulator to match what I'm measuring. Then I need to specify parts for the full power version — currently I've got a 1300V 130uF capacitor for the main pulse capacitor, that needs to become a 3000V 220uF capacitor to match the power output capacity of the Magstim Rapid, and all the other parts need to be increased in voltage rating proportionally. I'll have a parts list pretty soon and I'll be contacting everyone who has preordered to work out logistics to get the devices out to them.
https://www.reddit.com/r/rtms/comments/9nvdh1/opensource_rtms_device_design_part_4/
by quicksilv3rflash
2019-03-17: Good news. The prototype is working. Now, it's certainly in no condition to ship... but it's finally working! I personally am greatly relieved — the feeling of having already accepted preorder money to buy parts to build something that isn't yet functional is pretty distressing to me. I don't know how all those people on kickstarter could do it; I guess I just don't have the right personality type for selling false promises. The trouble with engineering, of course, is that until the prototype is tested and working (today!) you can never be really certain that your plans will work. So what now? Well, I still need to do more tests. All I've done is fire the thing up and verify that it sounds right (the pulses are audible, it's a low-frequency buzz currently set at 33Hz for testing), and check that the capacitor voltages are correct. I need to use an inductive current probe to get pictures of the output current waveform, and put the whole circuit into a simulator, and get the simulator to match what I'm measuring. Then I need to specify parts for the full power version — currently I've got a 1300V 130uF capacitor for the main pulse capacitor, that needs to become a 3000V 220uF capacitor to match the power output capacity of the Magstim Rapid, and all the other parts need to be increased in voltage rating proportionally. I'll have a parts list pretty soon and I'll be contacting everyone who has preordered to work out logistics to get the devices out to them.
https://www.reddit.com/r/rtms/comments/9nvdh1/opensource_rtms_device_design_part_4/
reddit
Open-source rTMS device design, part 4
2018-10-13: I've identified the cause of some of the trouble. [As the circuit is laid out currently, the output is...
No longer science fiction: Brain-to-brain interfaces can transmit thoughts | Genetic Literacy Project
https://geneticliteracyproject.org/2019/03/25/no-longer-science-fiction-brain-to-brain-interfaces-can-transmit-thoughts
https://geneticliteracyproject.org/2019/03/25/no-longer-science-fiction-brain-to-brain-interfaces-can-transmit-thoughts
Genetic Literacy Project
No longer science fiction: Brain-to-brain interfaces can transmit thoughts
It’s not sci-fi, it’s not mind control, but a real world attempt at telepathy.
Forwarded from NeuroIDSS
There is a cognitive bias that leads to the fact that there is not enough meaning, this is also due to the fact that we simplify probabilities and numbers to make them easier to think about, and this happens also because there is a magic number 7+-2, which correlates with the size of the working memory in the brain. It is difficult to say whether there is much meaning in increasing the working memory, but one can definitely say that without increasing the working memory, there is less meaning.
32-channel EEG brain-computer interface FreeEEG32 is designed and produced for measuring working memory, and an alternating current stimulator FreetACS is produced to increase working memory.
https://upload.wikimedia.org/wikipedia/commons/a/a4/The_Cognitive_Bias_Codex_-_180%2B_biases%2C_designed_by_John_Manoogian_III_%28jm3%29.png
32-channel EEG brain-computer interface FreeEEG32 is designed and produced for measuring working memory, and an alternating current stimulator FreetACS is produced to increase working memory.
https://upload.wikimedia.org/wikipedia/commons/a/a4/The_Cognitive_Bias_Codex_-_180%2B_biases%2C_designed_by_John_Manoogian_III_%28jm3%29.png
US Military funds mind-reading helmet that may let soldiers TELEPATHICALLY control robots or drones and could even give the gift of sight to the blind
The Defense Advanced Research Projects Agency gave $18 million to the project
Researchers will use gene therapy to help human brains interact with a helmet
If realised the tech could allow thoughts to be transferred from brain to machine
The helmet may also allow for one person's vision to be shared with another
https://www.dailymail.co.uk/sciencetech/article-7111199/US-Military-funds-mind-reading-helmet-let-soldiers-TELEPATHICALLY-control-robots-drones.html
The Defense Advanced Research Projects Agency gave $18 million to the project
Researchers will use gene therapy to help human brains interact with a helmet
If realised the tech could allow thoughts to be transferred from brain to machine
The helmet may also allow for one person's vision to be shared with another
https://www.dailymail.co.uk/sciencetech/article-7111199/US-Military-funds-mind-reading-helmet-let-soldiers-TELEPATHICALLY-control-robots-drones.html
Functional harmonics reveal multi-dimensional basis functions underlying cortical organization
The human brain consists of functionally specialized areas, which flexibly interact and integrate forming a multitude of complex functional networks. The principles underlying this functional differentiation and integration remain unknown. Here, we demonstrate that a fundamental principle ubiquitous in nature - harmonic modes - explains the orchestration of brain's functional organization. Applied to the functional connectivity in resting state averaged across 812 participants, harmonic modes give rise to functional harmonics revealing the communication channels of the human brain. Each associated with a different spatial frequency, the functional harmonics provide the frequency-ordered building blocks, which can reconstruct any pattern of brain activity.
https://www.biorxiv.org/content/10.1101/699678v1
The human brain consists of functionally specialized areas, which flexibly interact and integrate forming a multitude of complex functional networks. The principles underlying this functional differentiation and integration remain unknown. Here, we demonstrate that a fundamental principle ubiquitous in nature - harmonic modes - explains the orchestration of brain's functional organization. Applied to the functional connectivity in resting state averaged across 812 participants, harmonic modes give rise to functional harmonics revealing the communication channels of the human brain. Each associated with a different spatial frequency, the functional harmonics provide the frequency-ordered building blocks, which can reconstruct any pattern of brain activity.
https://www.biorxiv.org/content/10.1101/699678v1
Forwarded from Alexey Potapov
Teslarati
Elon Musk’s Neuralink to livestream special project update on July 16
Elon Musk’s Neuralink, the venture working to bridging the gap between potential superhuman artificial intelligence (AI) and the human brain itself, is finally providing an update on the research it’s been doing since its formation in 2016. The event will…
An integrated brain-machine interface platform with thousands of channels
Elon Musk, Neuralink
doi: https://doi.org/10.1101/703801
Brain-machine interfaces (BMIs) hold promise for the restoration of sensory and motor function and the treatment of neurological disorders, but clinical BMIs have not yet been widely adopted, in part because modest channel counts have limited their potential. In this white paper, we describe Neuralink's first steps toward a scalable high-bandwidth BMI system. We have built arrays of small and flexible electrode "threads", with as many as 3,072 electrodes per array distributed across 96 threads. We have also built a neurosurgical robot capable of inserting six threads (192 electrodes) per minute. Each thread can be individually inserted into the brain with micron precision for avoidance of surface vasculature and targeting specific brain regions. The electrode array is packaged into a small implantable device that contains custom chips for low-power on-board amplification and digitization: the package for 3,072 channels occupies less than (23 x 18.5 x 2) mm3. A single USB-C cable provides full-bandwidth data streaming from the device, recording from all channels simultaneously. This system has achieved a spiking yield of up to 85.5% in chronically implanted electrodes. Neuralink's approach to BMI has unprecedented packaging density and scalability in a clinically relevant package.
https://www.biorxiv.org/content/10.1101/703801v1
Elon Musk, Neuralink
doi: https://doi.org/10.1101/703801
Brain-machine interfaces (BMIs) hold promise for the restoration of sensory and motor function and the treatment of neurological disorders, but clinical BMIs have not yet been widely adopted, in part because modest channel counts have limited their potential. In this white paper, we describe Neuralink's first steps toward a scalable high-bandwidth BMI system. We have built arrays of small and flexible electrode "threads", with as many as 3,072 electrodes per array distributed across 96 threads. We have also built a neurosurgical robot capable of inserting six threads (192 electrodes) per minute. Each thread can be individually inserted into the brain with micron precision for avoidance of surface vasculature and targeting specific brain regions. The electrode array is packaged into a small implantable device that contains custom chips for low-power on-board amplification and digitization: the package for 3,072 channels occupies less than (23 x 18.5 x 2) mm3. A single USB-C cable provides full-bandwidth data streaming from the device, recording from all channels simultaneously. This system has achieved a spiking yield of up to 85.5% in chronically implanted electrodes. Neuralink's approach to BMI has unprecedented packaging density and scalability in a clinically relevant package.
https://www.biorxiv.org/content/10.1101/703801v1
bioRxiv
An integrated brain-machine interface platform with thousands of channels
Brain-machine interfaces (BMIs) hold promise for the restoration of sensory and motor function and the treatment of neurological disorders, but clinical BMIs have not yet been widely adopted, in part because modest channel counts have limited their potential.…
An integrated brain-machine interface platform with thousands of channels
https://www.biorxiv.org/content/10.1101/703801v1
https://www.biorxiv.org/content/10.1101/703801v1