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CHINESE INNOVATION : " BRAIN -ON- CHIP" SYSTEM FOR ROBOT MIND CONTROL.
Chinese researchers have developed an open-source " Brain- On-Chip" interface system., a world first that promises to revolutionize the control of robots by thought.
This advanced system is a collaboration between Tianjin University and Southern University of Science and Technology, as reported by Science and Technology Daily.
The system employs an artificial brain grown in vitro, also known as a " brain organoid," which is capable of interacting with external information through encoding, decoding and stimulated feedback processes by integrating with electrode chips.
The Tianjin researchers have filed 15 domestic patents in the field of brain-on-chip interfaces, with two of them currently under review in the United States and the United Kingdom. The team’s future goal is to deepen key scientific research on intelligent communication, migration and integration to foster early application of the technology, as stated by Tianjin University.
Recently, the Tianjin University research team published a study in the international journal" Brain," contributing to the foundation of an intelligent "brain" cultivation base. The human brain, while weighing only three pounds, is one of the most complex structures known in the world. Brain-on-chip interfaces, emerging as an important branch of brain-machine interfaces, are expected to promote the development of advanced technologies such as hybrid intelligence.
Currently, the technology is in its early stages and includes fundamental aspects such as intelligent bases and intelligent communication. The intelligent base, which serves as the central processing unit ( CPU ) of the intelligent entity, is the hub for achieving intelligent capabilities on the chip, with the goal of effectively simulating and analyzing the human brain.
Although the brain organoid exhibits a structure and functions similar to those of the human brain, it still faces significant challenges, such as limited maturity and insufficient nutrient supply, according to the Tianjin University research team.
This innovation represents an important step in the field of brain-machine interfaces and could pave the way for new technological applications that transform the way we interact with machines, enabling more direct and natural control through human thought.