Brain-computer interface is a cutting-edge technology that has attracted much attention and is known as one of the important directions of human-computer interaction in the future. This technology enables direct interaction between the human mind and the machine by directly connecting the brain and the computer, thus greatly expanding the human ability to perceive, cognitive, and act. In recent years, with the rapid development of artificial intelligence, biomedicine and other fields, brain-computer articulation has also made significant progress, and has gradually become a hot spot of research, which is getting closer and closer to our actual life.
Its application prospects are wide and far-reaching. In the medical field, the potential of brain-computer articulation is particularly prominent. By directly connecting the brain to external devices, brain-computer articulation can help patients regain physical function and improve their quality of life. For example, for paraplegics, a brain-computer interface can restore voluntary movement by controlling a robotic arm or prosthesis. This not only helps to improve the quality of daily life of patients, but also reduces the burden on families and society.
In addition, brain-computer articulation has great commercial value. With the continuous development of technology, brain-computer interfaces have become an important area of business competition. Many companies have begun to lay out the field of brain-computer interfaces and develop related products and services. For example, technology giants such as Google and Microsoft are actively developing brain-computer technology and applying it to smart homes, autonomous driving and other fields.
In the field of smart home, brain-computer interface can be used to realize the automatic control and intelligent management of smart home equipment. For example, through simple thinking or consciousness, controlling the switch of household appliances, adjusting the brightness of lights, adjusting the indoor temperature, etc.;In the field of autonomous driving, people can control the direction of driving, speed, braking, and other actions of the vehicle through their consciousness. This will greatly improve the safety and comfort of driving, while also reducing driver fatigue and stress.
Traditional human-computer interaction methods, such as keyboards, mice, touch screens, etc., have been very popular and practical, but they require users to Xi and operate to be proficient. Moreover, these interactions often require multiple clicks, drags, and inputs from the user to complete a simple task, which is not only inefficient, but also error-prone.
In contrast, brain-computer interaction is more natural and intuitive, just like the communication between people, only simple thinking and expression are required to achieve the transmission and exchange of information. This interaction can not only improve work efficiency, but also reduce the user's learning cost and operation difficulty Xi.
In view of the characteristics of brain-computer articulation, in order to promote the progress of the field, various countries have introduced a series of relevant policies and regulations, which provide strong support and guarantee for the development of brain-computer articulation. These policies and regulations not only clarify the direction and goals of technology research and development, but also provide sufficient funds and resources for scientific research institutions, so that brain-computer technology can be applied and developed in a broader scope.
China has successively joined the "China Brain Project".
Ten. Three. 5. The 14th Five-Year Plan, and allocate more than 3 billion yuan in 2021 to support related scientific research projects.
In addition to the support of the world, many scientific research institutions have also increased investment in the research and development of brain-computer technology. Through the introduction of advanced equipment and technology, these institutions have strengthened personnel training and team building, and continuously promoted the innovation and development of brain-computer technology. At the same time, scientific research institutions also actively cooperate with enterprises to transform research results into practical applications, which further promotes the industrialization process of brain-computer connection.
Last week, the School of Sociology of Nanjing University, the Institute of Thin Film Sensors and Integrated Systems of the School of Integrated Circuit Science and Engineering of Tianjin University of Technology, Xinhuanet Jiangsu Company and Boerya Technology jointly built a joint laboratory for brain-computer interaction to jointly promote the development of the brain-computer interaction industry.
In the future, with the continuous progress of technology and the continuous expansion of application scenarios, brain-computer computing will play an important role in more fields and bring more convenience and well-being to human life.