Reminder, traffic before the additional pages, tags added etc = approx 100 hits per day; we have almost QUADRUPLED traffic. The bad news, I need to get to around 1,000 hits per day of PASSIVELY generated traffic ASAP. With 1000 hits a day, that should translate into at least 500 downloads or more per day = 3.500 downloads per week = 14,000 / month = 148,000 /year.
13 minutes past 12 o'clock (GMT used) =
Today
286
Yesterday
506
I've just pissed off the whole of mewe (sending out all the posts!) ... hehe
Over to other TI's to keep the posts going out for the next 3-4 hours (I'll send out the UK onces into mewe myself very late afteroon, if I've got the Canadian page done in time.
Today
286
Yesterday
506
I've just pissed off the whole of mewe (sending out all the posts!) ... hehe
Over to other TI's to keep the posts going out for the next 3-4 hours (I'll send out the UK onces into mewe myself very late afteroon, if I've got the Canadian page done in time.
OpO9A-social-media-posts-001-250214.txt
56.4 KB
All social media posts to date (5 eyes minus Canada). This seems to be being deleted from the group ... so if you see it, download right away.
Forwarded from PlanofAction
Human Power For Neural Interface & Beast System
Neural interfaces are devices that connect the human brain directly to machines, enabling a seamless interaction between the mind and technology. These interfaces can significantly enhance human cognitive and physical capabilities, such as improving communication for individuals with motor impairments and providing real-time monitoring of brain activity for medical purposes
BrainGate System
One notable example is the BrainGate system, which has demonstrated the first human use of a wireless transmitter capable of delivering high-bandwidth neural signals.
DARPA
N3: Next-Generation Nonsurgical Neurotechnology
https://www.darpa.mil/research/programs/next-generation-nonsurgical-neurotechnology
This wireless technology allows participants to use the system in their homes without the need for a technician to maintain a wired connection, facilitating continued research and development during the pandemic
Recent advances in electrical neural interface engineering: minimal invasiveness, longevity and scalability
Wireless data communication and Power Transfer techniques as “Electromagnetic”, “Magnetic”, or “Acoustic”; however, some techniques consist of mixed modalities and thus could fall into multiple categories.
One example is near field inductive coupling (NIC), which we consider here as a magnetic technique because it is powered using a magnetic field; however, NIC can also be considered to be an electromagnetic technique given that the implant’s current is driven by an electromotive force.
https://pmc.ncbi.nlm.nih.gov/articles/PMC7646678/
Neural Interfaces: Bridging Mind and Machine
https://editverse.com/neural-interfaces/
Connecting The Human Brain
Enabling Connection
We are building a high data-rate brain computer interface (BCI) to provide technology solutions for people with neurological and brain-related conditions. Our first clinical application will help severely motor-impaired people communicate, enabling social connection and restoring independence.
https://www.paradromics.com/
Neural interfaces are devices that connect the human brain directly to machines, enabling a seamless interaction between the mind and technology. These interfaces can significantly enhance human cognitive and physical capabilities, such as improving communication for individuals with motor impairments and providing real-time monitoring of brain activity for medical purposes
BrainGate System
One notable example is the BrainGate system, which has demonstrated the first human use of a wireless transmitter capable of delivering high-bandwidth neural signals.
DARPA
N3: Next-Generation Nonsurgical Neurotechnology
https://www.darpa.mil/research/programs/next-generation-nonsurgical-neurotechnology
This wireless technology allows participants to use the system in their homes without the need for a technician to maintain a wired connection, facilitating continued research and development during the pandemic
Recent advances in electrical neural interface engineering: minimal invasiveness, longevity and scalability
Wireless data communication and Power Transfer techniques as “Electromagnetic”, “Magnetic”, or “Acoustic”; however, some techniques consist of mixed modalities and thus could fall into multiple categories.
One example is near field inductive coupling (NIC), which we consider here as a magnetic technique because it is powered using a magnetic field; however, NIC can also be considered to be an electromagnetic technique given that the implant’s current is driven by an electromotive force.
https://pmc.ncbi.nlm.nih.gov/articles/PMC7646678/
Neural Interfaces: Bridging Mind and Machine
https://editverse.com/neural-interfaces/
Connecting The Human Brain
Enabling Connection
We are building a high data-rate brain computer interface (BCI) to provide technology solutions for people with neurological and brain-related conditions. Our first clinical application will help severely motor-impaired people communicate, enabling social connection and restoring independence.
https://www.paradromics.com/
Forwarded from PlanofAction
Battelle Neuro Team Advances to Phase II of DARPA N3 Program
A Battelle team of researchers has received funding to continue work on the second of a three-phase Defense Advanced Research Projects Agency (DARPA) program called Next-Generation Nonsurgical Neurotechnology (N3).
https://www.battelle.org/insights/newsroom/press-release-details/battelle-neuro-team-advances-to-phase-ii-of-darpa-n3-program
The interface called BrainSTORMS (Brain System to Transmit Or Receive Magnetoelectric Signals).
It employs magnetoelectric nanotransducers (MEnTs) localized in neural tissue for BCI applications.
One of the key MEnT attributes are their incredibly small size—thousands of MEnTs can fit across the width of a human hair.
The MEnTs are first injected into the circulatory system and then guided with a magnet to the targeted area of the brain.
A Battelle team of researchers has received funding to continue work on the second of a three-phase Defense Advanced Research Projects Agency (DARPA) program called Next-Generation Nonsurgical Neurotechnology (N3).
https://www.battelle.org/insights/newsroom/press-release-details/battelle-neuro-team-advances-to-phase-ii-of-darpa-n3-program
The interface called BrainSTORMS (Brain System to Transmit Or Receive Magnetoelectric Signals).
It employs magnetoelectric nanotransducers (MEnTs) localized in neural tissue for BCI applications.
One of the key MEnT attributes are their incredibly small size—thousands of MEnTs can fit across the width of a human hair.
The MEnTs are first injected into the circulatory system and then guided with a magnet to the targeted area of the brain.
Default
Battelle Neuro Team Advances to Phase II of DARPA N3 Program| Battelle Press Release
A Battelle team of researchers has received funding to continue work on the second of a three-phase DARPA program called Next-Generation Nonsurgical Neurotechnology (N3).
Forwarded from PlanofAction
Called BrainSTORMS (Brain System to Transmit Or Receive Magnetoelectric Signals),
Battelle’s N3 concept involves the development of a NANO-TRANSDUCER that could be introduced INTO THE BODY VIA INJECTION and THEN DIRECTED TO A SPECIFIC AREA OF THE BRAIN to help complete a task through communication with a helmet-based transceiver.
https://www.army-technology.com/news/darpa-injectable-brain-control-technology/?cf-view
MOANA (Magnetic, Optical, and Acoustic Neural Access)
aims to develop a minutely invasive, bidirectional system for recording from and writing to the brain. For the recording function, the interface will use diffuse optical tomography to infer neural activity by measuring light scattering in neural tissue. To enable the write function, the team will use a magneto-genetic approach to make neurons sensitive to magnetic fields.
https://magneticsmag.com/magnetism-plays-key-roles-in-darpa-research-to-develop-brain-machine-interface-without-surgery/
Battelle’s N3 concept involves the development of a NANO-TRANSDUCER that could be introduced INTO THE BODY VIA INJECTION and THEN DIRECTED TO A SPECIFIC AREA OF THE BRAIN to help complete a task through communication with a helmet-based transceiver.
https://www.army-technology.com/news/darpa-injectable-brain-control-technology/?cf-view
MOANA (Magnetic, Optical, and Acoustic Neural Access)
aims to develop a minutely invasive, bidirectional system for recording from and writing to the brain. For the recording function, the interface will use diffuse optical tomography to infer neural activity by measuring light scattering in neural tissue. To enable the write function, the team will use a magneto-genetic approach to make neurons sensitive to magnetic fields.
https://magneticsmag.com/magnetism-plays-key-roles-in-darpa-research-to-develop-brain-machine-interface-without-surgery/
Forwarded from PlanofAction
The device will consist of an array of flexible complementary metal–oxide–semiconductor (CMOS) chiplets that can conform to the surface of the scalp and implement our optical readout technology based on Time-of-Flight Functional Diffuse Optical Tomography (ToFF-DOT).
In Phase 1, the team identified a genetically targeted magnetic stimulation technology that can achieve cell-type specific stimulation with a spatial resolution defined by the distribution of genetically modified cells (< 1mm) and with a temporal resolution approaching 10 ms, as depicted in Fig. 1. Their work showed a more than 10-fold improvement in temporal resolution compared to state-of-the-art magnetogenetic stimulation.
They also accomplished, as depicted in Fig. 2, successful tape-out of the MOANA chiplet and design of a prototype flexible patch for imaging a brain phantom through a 5mm skull phantom. Photon counting ability met the design specifications for an integrated ToFF-DOT system.
Among other accomplishments in Phase 1, were efforts in write technology that achieved targeted and non-invasive delivery of viruses in mice, demonstrating fast magnetic stimulation in mammalian cells; also in viral delivery using magnetic iron oxide nanocrystal clusters of core/shell with high magnetic heating efficiency and magnetothermal multiplexing.
In Phase 2, the team aims to advance its work further toward the goal of reaching demonstration in humans in Phase 3. Among the goals for Phase 3 are to accomplish non-surgical reads, writes with magnetogenetics, and to demonstrate closed-loop brain-to-brain MOANA link in humans.
P2794 - Reporting Standards for in vivo Neural Interface Research (RSNIR)
https://sagroups.ieee.org/2794/
IEEE & The BRAIN Initiative
Institute of Electrical Electronic Engineers (IEEE) is the world’s largest technical professional organization dedicated to advancing technology for the benefit of humanity.
https://www.braininitiative.org/alliance/ieee-brain/
In Phase 1, the team identified a genetically targeted magnetic stimulation technology that can achieve cell-type specific stimulation with a spatial resolution defined by the distribution of genetically modified cells (< 1mm) and with a temporal resolution approaching 10 ms, as depicted in Fig. 1. Their work showed a more than 10-fold improvement in temporal resolution compared to state-of-the-art magnetogenetic stimulation.
They also accomplished, as depicted in Fig. 2, successful tape-out of the MOANA chiplet and design of a prototype flexible patch for imaging a brain phantom through a 5mm skull phantom. Photon counting ability met the design specifications for an integrated ToFF-DOT system.
Among other accomplishments in Phase 1, were efforts in write technology that achieved targeted and non-invasive delivery of viruses in mice, demonstrating fast magnetic stimulation in mammalian cells; also in viral delivery using magnetic iron oxide nanocrystal clusters of core/shell with high magnetic heating efficiency and magnetothermal multiplexing.
In Phase 2, the team aims to advance its work further toward the goal of reaching demonstration in humans in Phase 3. Among the goals for Phase 3 are to accomplish non-surgical reads, writes with magnetogenetics, and to demonstrate closed-loop brain-to-brain MOANA link in humans.
P2794 - Reporting Standards for in vivo Neural Interface Research (RSNIR)
https://sagroups.ieee.org/2794/
IEEE & The BRAIN Initiative
Institute of Electrical Electronic Engineers (IEEE) is the world’s largest technical professional organization dedicated to advancing technology for the benefit of humanity.
https://www.braininitiative.org/alliance/ieee-brain/
Forwarded from PlanofAction
Neural Interface
Neural probe is a microstructure which connects neural tissue with external electrical, optical or chemical systems.
In this structure, size, thickness, dimension and impedance are important issues to have the least brain damage during and after implantation.
Micromachining technique has been used in probe production in which probe lies in the gold nanoparticle bath and then a layer of carbon nanotube with 2-micron thickness forms on the electrode body.
Finally, nanoparticles are homogenized by ultrasonic wave and complete the probe structure
https://pmc.ncbi.nlm.nih.gov/articles/PMC6015649/#:~:text=A%20closed%2Dloop%20system%20receives,parameter%20adjustment%20(Figure%205a)
Neural probe is a microstructure which connects neural tissue with external electrical, optical or chemical systems.
In this structure, size, thickness, dimension and impedance are important issues to have the least brain damage during and after implantation.
Micromachining technique has been used in probe production in which probe lies in the gold nanoparticle bath and then a layer of carbon nanotube with 2-micron thickness forms on the electrode body.
Finally, nanoparticles are homogenized by ultrasonic wave and complete the probe structure
https://pmc.ncbi.nlm.nih.gov/articles/PMC6015649/#:~:text=A%20closed%2Dloop%20system%20receives,parameter%20adjustment%20(Figure%205a)
Forwarded from PlanofAction
Micromachining Technique
The gold nanoparticle bath and then a layer of carbon nanotube with 2-micron thickness forms on the electrode body.
Finally, nanoparticles are homogenized by ultrasonic wave and complete the probe structure
https://pmc.ncbi.nlm.nih.gov/articles/PMC6015649/#:~:text=A%20closed%2Dloop%20system%20receives,parameter%20adjustment%20(Figure%205a)
The gold nanoparticle bath and then a layer of carbon nanotube with 2-micron thickness forms on the electrode body.
Finally, nanoparticles are homogenized by ultrasonic wave and complete the probe structure
https://pmc.ncbi.nlm.nih.gov/articles/PMC6015649/#:~:text=A%20closed%2Dloop%20system%20receives,parameter%20adjustment%20(Figure%205a)
Forwarded from PlanofAction
The nanotransducer would use magnetoelectric nanoparticles to establish a bi-directional communication channel with the brain.
Neurons in the brain operate through electrical signals.
The magnetic core of the nanotransducers would convert the neural electrical signals into magnetic ones that would be sent through the skull to the helmet-based transceiver worn by the user.
The helmet transceiver could also send magnetic signals back to the nanotransducers where they would be converted to electrical impulses capable of being processed by the neurons, enabling two-way communication to and from the brain.
MOANA chiplet and design of a prototype flexible patch for imaging a brain phantom through a 5mm skull phantom. Photon counting ability met the design specifications for an integrated ToFF-DOT system.
http://www.opensourcetruth.com/magnetism-plays-key-roles-in-darpa-research-to-develop-brain-machine-interface-without-surgery/
Neurons in the brain operate through electrical signals.
The magnetic core of the nanotransducers would convert the neural electrical signals into magnetic ones that would be sent through the skull to the helmet-based transceiver worn by the user.
The helmet transceiver could also send magnetic signals back to the nanotransducers where they would be converted to electrical impulses capable of being processed by the neurons, enabling two-way communication to and from the brain.
MOANA chiplet and design of a prototype flexible patch for imaging a brain phantom through a 5mm skull phantom. Photon counting ability met the design specifications for an integrated ToFF-DOT system.
http://www.opensourcetruth.com/magnetism-plays-key-roles-in-darpa-research-to-develop-brain-machine-interface-without-surgery/
Forwarded from PlanofAction
Among other accomplishments in Phase 1, were efforts in write technology that achieved targeted and non-invasive delivery of viruses in mice, demonstrating fast magnetic stimulation in mammalian cells; also in viral delivery using magnetic iron oxide nanocrystal clusters of core/shell with high magnetic heating efficiency and magnetothermal multiplexing.
Phase 2, the team aims to advance its work further toward the goal of reaching demonstration in humans in Phase 3.
Among the goals for Phase 3 are to accomplish non-surgical reads, writes with magnetogenetics, and to demonstrate closed-loop brain-to-brain MOANA link in humans.
https://magneticsmag.com/magnetism-plays-key-roles-in-darpa-research-to-develop-brain-machine-interface-without-surgery/
Phase 2, the team aims to advance its work further toward the goal of reaching demonstration in humans in Phase 3.
Among the goals for Phase 3 are to accomplish non-surgical reads, writes with magnetogenetics, and to demonstrate closed-loop brain-to-brain MOANA link in humans.
https://magneticsmag.com/magnetism-plays-key-roles-in-darpa-research-to-develop-brain-machine-interface-without-surgery/
Magnetics Magazine
Magnetism Plays Key Roles in DARPA Research to Develop Brain-Machine Interface without Surgery - Magnetics Magazine
Some of the most exotic research involving magnetism is sponsored by the U.S. Defense Advanced Research Projects Agency, known as DARPA. One of their programs, literally, boggles the mind as it delves into areas once [...]
Forwarded from PlanofAction
Recent progress of hydrogels in brain-machine interface
Hydrogels!
https://www.oaepublish.com/articles/ss.2024.34?to=art_Graphical
Hydrogels!
https://www.oaepublish.com/articles/ss.2024.34?to=art_Graphical
Soft Science
Recent progress of hydrogels in brain-machine interface
The long-term stable monitoring of brain signals, including electroencephalogram (EEG), electrocorticogram (ECoG) and local field potential (LFP), is of great significance for the fundamental research in brain science, artificial intelligence and the diagnosis…
Forwarded from PlanofAction
MOANA (Magnetic, Optical & Acoustic Neural Access Device)
The Magnetic, Optical & Acoustic Neural Access Device (MOANA) will test techniques that employ light, ultrasound or electromagnetic energy to READ & WRITE Brain Activity.
Here's Rice University
https://news.rice.edu/news/2019/feds-fund-creation-headset-high-speed-brain-link
The Magnetic, Optical & Acoustic Neural Access Device (MOANA) will test techniques that employ light, ultrasound or electromagnetic energy to READ & WRITE Brain Activity.
Here's Rice University
https://news.rice.edu/news/2019/feds-fund-creation-headset-high-speed-brain-link
Forwarded from PlanofAction
Forwarded from PlanofAction
LEGEND
- CMNT: common mission network transport
- MCIS: mission command information system
- MPE: mission partner environment
- NIPRNET: Non-classified Internet Protocol Router Network
- SIPRNET: SECRET internet Protocol Router Network
PDF DOWNLOAD
https://t.co/eCUQCDh97y
- CMNT: common mission network transport
- MCIS: mission command information system
- MPE: mission partner environment
- NIPRNET: Non-classified Internet Protocol Router Network
- SIPRNET: SECRET internet Protocol Router Network
PDF DOWNLOAD
https://t.co/eCUQCDh97y
Work hard folks, I said their would be a fightback AND ... this is the SECOND article promoting freemasonry as the good guys, in as many days;
https://www.dailymail.co.uk/news/article-14388347/Secrets-Freemasons-revealed-TikTokhandshakes-gatherings.html
https://www.dailymail.co.uk/news/article-14388347/Secrets-Freemasons-revealed-TikTokhandshakes-gatherings.html
Mail Online
Secrets of the Freemasons revealed for the first time on TikTok
After centuries of rumour about what they do, some masonic lodges are turning to social media to de-mystify what goes on behind the closed doors of the the Freemasons' grand bases.