Technology Development Projects

Brain Microchip That Records History

This invention concept pertains to a microchip that could be implanted in a brain to take recordings of all the activities of the person that it is used by. It could be downloaded to other computer systems, such as at the end of the day or week, depending upon how much memory it has in it. The invention could be used by law enforcement, or military intelligence, for missions that require no physical evidence of recording technology, such as penetrating criminal or terrorist organizations, or accessing foreign military intelligence facilities.

Retina Heads Up Display System

A system that interfaces with all other law enforcement and military intelligence systems, including the neural network of Artificial Telepathy systems, that allow a visual imprint on the retina of the eye to see an image that overlays the active view by supplementing additional information about the surroundings, moving objects, stationary objects, and persons, including the use of logo recognition, character recognition, object recognition, and facial recognition systems, for the purpose of directly informing law enforcement and military forces of their surroundings to avoid dangers and identify suspects, enemy forces, weapons systems, bystanders, victims, and other persons and objects for processing.

Elon Musk’s Brain Cybernetics Device(s)

There could be multiple versions of this device type, not only from Elon Musk’s company, but also from other companies.
The device would most likely use magnets, to move a tiny computer that runs off a magnetic field, which would require that a magnetic field be applied to the head always. The magnets could also be used to guide the tiny computer through the veins and into the brain.

The concept of using AI to connect with the brain isn’t a new concept. It has been discussed thoroughly in the invention documentation for Artificial Telepathy. In Artificial Telepathy, the AI would be an open architecture, that would have multiple layers to supplement the multiple inputs, and subsequent outputs back into the brain from the computing device.

The best type of cybernetics device is going to involve some surgery, and it isn’t currently allowed in the United States. I wouldn’t invest into his technology, because I think it’s unlikely that Congress will ever approve any technologies to be used for medical research purposes if there is not already a dependency on computers, such as dependency on BCIs to communicate. So basically, the market share for this type of invention is most likely very small, limited to individuals who will waive all liabilities and receive the implant illegally. Once implanted, it is unlikely that it would be an issue legally, however if it could be proved that the technology was in use – there could be laws that outlaw the use of the technology if it isn’t clearly visible. And I’m not opposed to the technology.

The device would also need a way to communicate with a host device that runs the systems that interprets the radio waves being emitted from the device to the host device, and subsequently send back radio signals that are then converted into electrical impulses, all getting their power from magnets or electromagnets.

Barriers to Entry into Implant Technology Market

The barriers to entry into implant technology markets includes the problem with our laws that prohibit the testing of medical technology on persons that are not physically disabled, or in other words the technologies must improve their mobility – or otherwise greatly improve their ability to function in day-to-day life. Implants for improving intellect are not warranted.

There will be problems with inadequacies identified when some people have them and other people do not. For an example, the people with them will excel at nearly every activity – when they are up to the level of motor control, while the people without them will not be able to compete on that level.

They will be banned from sports, such as the Olympics.

They may be banned from industries.

Inter-Cellular Pico-Cybernetics Technology

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This technology would pertain to the use of pico-scaled technologies, such as tiny computing structures that would have the capability of being implanted within cells, for the purpose of improving intelligence capabilities, motor functions, cellular regeneration and cellular health, instantaneous accountability of health through computerized processes, ability to communicate information within the brain faster than the speed of neurons, ability to program the mind with large amounts of information within digital memory in the pico-cybernetics within the cells, and the ability to provide protection of cells from harsh conditions for short amounts of time, such as inter-cellular repair, protection of cells from cancer and dehydration, and protection of cells from poor blood circulation, and the ability to prevent conditions such as heart attacks.

This technology could work through the combination of multiple layers of membranes that have pico-scaled interface channels, such as the ability to store light, cellular stabilization agents that balance the fluid makeup in the cells, sensors, and other types of technologies for processing light and communicating with nearby networks of the same types of inter-cellular pico-cybernetics technology.

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