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International Joint Research Laboratory of Biomimetic Robots and Systems (BIT), Ministry of Education

International Joint Research Laboratory of Biomimetic Robots and Systems (BIT), Ministry of Education

  

  The International Joint Research Laboratory of Biomimetic Robots and Systems (Beijing Institute of Technology), Ministry of Education, was approved and established in 2015.

  This Laboratory is built on the basis of the National first-level discipline of Mechanical Engineering and the first-level discipline of Control Science and Engineering, as well as the Key Laboratory of Complex System Intelligent Control and Decision, the Special Mobile Platform Design and Manufacturing Science and Technology Discipline Innovation and Talents Introduction Base, and the Key Laboratory of Biomimetic Robots and Systems (BIT), Ministry of Education, and its main research directions are: sports bionics; microanalysis and operation of organism; bionic perception and interaction; and bionic control and system integration.

  The positioning of the Laboratory: closely focusing on the international scientific and technological development frontier and major national needs, and following or leading the latest research and development frontier at home and abroad, it promotes the innovation and development of bionic robot and system based on the research results of basic theory, which also has the research ability to solve the major theoretical problems in this field and in the development of major national science and technology projects. Meanwhile, the Laboratory further refines the subject direction, and enriches the scientific connotation of the research direction, so that the academic level of the laboratory has been greatly expanded and improved, which makes it become a research base with important academic influence in the field of bionic robot and system.

  The construction objectives of the Laboratory: by comprehensively using the intersection and integration of multi disciplines such as molecular bionics; bionic mechanics; multi-scale perception and control technology; multi artificial intelligence technology; and cutting-edge science and technology, the Laboratory focuses on the special functions, structures and mechanisms of biology and its organs, and makes breakthrough of the theoretical method and technology of sports bionics; microanalysis and operation of organism; bionic perception and interaction, and bionic control and system integration, etc. to deal with a series of major and cutting-edge scientific problems. Taking the bionic robot and system as the technology integration platform of high-end scientific research, the Laboratory carries out original scientific research, explore new mode of international scientific and technological cooperation in colleges and universities, and improve the innovation ability and academic reputation of itself.

  In recent years, the Laboratory undertook and completed over 300 projects, including the projects of 973 Plan (National Key Basic Research and Development Plan), National Science Fund for Distinguished Young Scholars, 863 Plan (National High Tech Research and Development Plan), National Science and Technology Major Project, Basic Research of National Defense, Defense Advance Research, Development of Engineering, Development of Key Model Equipment, Beijing Key Scientific Research Projects, and international cooperation project and enterprise cooperation research. Teachers of the Laboratory have won 3 second prizes of National Science and Technology Progress Award, 9 provincial and ministerial awards for scientific and technological achievements, published 220 SCI papers, and owned more than 200 authorized invention patents. Besides, it has extensive academic exchanges at home and abroad, which are the basis and conditions for fruitful international exchanges and cooperation. The innovative research results have made important academic influence, and remarkable economic, social and military benefits, which includes (1) Motion planning and control theory of humanoid robot based on the laws of human movement; (2) Cell characteristic analysis and tissue engineering construction of micro/nano operation robot; (3) Research on miniaturization, intelligentization and networking of photoelectric imaging system; and (4) Navigation, control and application of agent in multi-source information environment.

  

  Contact: Shi Qing     Tel: 010-68918231