In China, a groundbreaking brain implant has been developed that allows a monkey to control a robotic arm with its thoughts. This technology is based on a high-performance brain-computer interface (BCI) called Neucyber, which was independently developed by Chinese scientists.
The Neucyber chip consists of three components: high-capacity flexible microelectrodes, two high-speed neural signal acquisition devices, and a generative neural decoding algorithm. This technology captures subtle changes in the brain’s electrical signals, decodes brain intentions, and achieves control over actions through thoughts. It allows for the control of machines without physical contact.
The implantable electrodes made from flexible materials reduce damage to the brain and ensure long-term stable signal acquisition. Experts have reported that the flexible electrode implanted in a monkey’s skull has been stable for nearly a year and continues to provide high-quality signals.
This technology offers hope for paralyzed individuals to potentially regain the ability to touch and grasp objects in the physical world in the future. The implications of this technology are significant for individuals with disabilities and could revolutionize the way we interact with machines and technology.
In conclusion, the development of this new brain implant is an exciting advancement in BCI technology that could have far-reaching implications for individuals with disabilities and society as a whole.