This π§΅ thread documents research in developments of brain-computer interfaces, neural interfaces, neural recording, neuromodulation, AI decoder headsets, graphene, memory implants, and documented demonstrations.
Overview
Brain-computer interfaces are a direct communication link between the brain's electrical activity and an external device, most commonly a computer or robotic limb. BCIs are often directed at researching, mapping, assisting, augmenting, or repairing human cognitive or sensory-motor functions.
DARPA's interest in nonsurgical brain-machine interfaces, medical BCI work, military interest in noninvasive interfaces, and consumer wearables all show that reading or influencing nervous-system signals is no longer science fiction.
Evidence Cards
Card #01: π Using Graphene To Decode Thoughts & Speech
Canonical URL: https://conspirograph.com/topic/brain-interfaces/card/96
The attachments discuss neural interfaces using graphene to decode speech-related brain π§ activity. The idea involves recording motor cortex signals related to articulation and speech, then decoding these signals to sen
The attachments discuss neural interfaces using graphene to decode speech-related brain π§ activity.
The idea involves recording motor cortex signals related to articulation and speech, then decoding these signals to send to a speech synthesizer.
Graphene is highlighted for its ability to conformably cover the brain's surface while offering a high signal-to-noise ratio, allowing for precise reading of small neural signals.
Attachments
Topic: Brain Interfaces. Comments: 0.
Card #02: π«Graphene Sensors For Human Health Monitoring
Canonical URL: https://conspirograph.com/topic/brain-interfaces/card/95
These revolutionary graphene-based sensors are used for a variety of applications within the body. In theory they attach to all sorts of things such as: your lungs, your heart, your vocal chords, even your optic nerves, and neurons in the human brain. These graphene-sensors form a sort of organic sensor mesh inside the body. Radio frequency modulation senses the changes in these materials and AI decoding maps the read data. This includes mapping things such as: breathing patterns, heart rates, vocal vibration to speech, and even mapping visual optics and thoughts. Studies also involve stimulating these materials with radio frequencies for a variety of applications.
These revolutionary graphene-based sensors are used for a variety of applications within the body.
In theory they attach to all sorts of things such as: your lungs, your heart, your vocal chords, even your optic nerves, and neurons in the human brain.
These graphene-sensors form a sort of organic sensor mesh inside the body. Radio frequency modulation senses the changes in these materials and AI decoding maps the read data. This includes mapping things such as: breathing patterns, heart rates, vocal vibration to speech, and even mapping visual optics and thoughts.
Studies also involve stimulating these materials with radio frequencies for a variety of applications.
Links
Attachments
Topic: Brain Interfaces. Comments: 0.
Card #03: π€ A Brain Chip For Depression
Canonical URL: https://conspirograph.com/topic/brain-interfaces/card/117
This woman's depression was treated with a 'pacemaker' for the brain. If you aren't happy from "owning nothing" you could always get a brain pacemaker.
This woman's depression was treated with a 'pacemaker' for the brain.
If you aren't happy from "owning nothing" you could always get a brain pacemaker.
Attachments
Topic: Brain Interfaces. Comments: 0.
Card #04: π΅βπ« Memory Implants & Coercive Control
Canonical URL: https://conspirograph.com/topic/brain-interfaces/card/21
Attachments
Topic: Brain Interfaces. Comments: 0.
Card #05: π§ Brain Robotic Interface
Canonical URL: https://conspirograph.com/topic/brain-interfaces/card/411
This military interface utilizes a 'graphene' based headset with a 'neural AI decoder' to control robotic dogs on the battlefield.
This military interface utilizes a 'graphene' based headset with a 'neural AI decoder' to control robotic dogs on the battlefield.
Attachments
Topic: Brain Interfaces. Comments: 0.
Card #06: π Extra Notes
Canonical URL: https://conspirograph.com/topic/brain-interfaces/card/10
π Question: if the body becomes readable, can the mind become readable too? π Question: is a brain pacemaker considered a digital lobotomy?
π Question: if the body becomes readable, can the mind become readable too?
π Question: is a brain pacemaker considered a digital lobotomy?
Links
Topic: Brain Interfaces. Comments: 0.
Card #07: β οΈ Brain Hacking Capabilities & Risks
Canonical URL: https://conspirograph.com/topic/brain-interfaces/card/141
πΌπ The provided materials explore the capabilities and risks of brain interface technologies, particularly optogenetics and DREADDs (Designer Receptors Exclusively Activated by Designer Drugs). These technologies can m
πΌπ The provided materials explore the capabilities and risks of brain interface technologies, particularly optogenetics and DREADDs (Designer Receptors Exclusively Activated by Designer Drugs). These technologies can manipulate neuronal activity remotely.
DREADDs allow scientists to activate or deactivate neurons without implanting anything in the brain, raising concerns about potential misuse.
Optogenetics, involves using light-sensitive proteins (opsins) extracted from plants to manipulate neuronal activity. mRNA platforms could enable remote control of neuronal activity via light pulses, potentially disrupting the brain's interception pathways.
These technologies could be delivered through viral vectors. The potential for optogenetics to be included in mRNA platforms also raises concerns about biosecurity vulnerabilities.
Concerns arise that these technologies could interfere with free will and be used for remote observation or behavioral manipulation.
π Notes: In 2013, former President Barack Obama announced the BRAIN Initiative, which aimed to develop tools for understanding and controlling brain function.
Attachments
Topic: Brain Interfaces. Comments: 0.
Card #08: β οΈ Concerns
Canonical URL: https://conspirograph.com/topic/brain-interfaces/card/162
Concerns arise over privacy, memory implants, remote influence, and mass mind control. What capabilities are real, who funds them, and what ethical guardrails exist?
Concerns arise over privacy, memory implants, remote influence, and mass mind control.
What capabilities are real, who funds them, and what ethical guardrails exist?
Topic: Brain Interfaces. Comments: 0.
Card #09: π Document
Canonical URL: https://conspirograph.com/topic/brain-interfaces/card/226
The attached documents present information about 'circulatronics' technology developed by researchers at MIT. This technology involves microscopic, wireless bioelectronics designed to travel through the body's circulator
The attached documents present information about 'circulatronics' technology developed by researchers at MIT. This technology involves microscopic, wireless bioelectronics designed to travel through the body's circulatory system and autonomously implant in specific brain regions. The implants aim to provide localized neuromodulation, a technique that has shown promise in treating neurological diseases such as Alzheimerβs and multiple sclerosis. The claim is that this technology could eliminate the need for risky surgical procedures, making brain implants more accessible.
Attachments
- Image A: 1.jpg (image/jpeg, 284.0 KB)
- Image B: 2.jpg (image/jpeg, 223.7 KB)
Topic: Brain Interfaces. Comments: 0.
Card #10: π€ποΈ Under The Skin Surveillance
Canonical URL: https://conspirograph.com/topic/brain-interfaces/card/134
Under the skin total biometric surveillance.
Under the skin total biometric surveillance.
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Topic: Brain Interfaces. Comments: 0.
Card #11: π€ The Creation Of A Useless Class Of Humans
Canonical URL: https://conspirograph.com/topic/brain-interfaces/card/274
Attachments
Topic: Brain Interfaces. Comments: 0.