future,robotApplications will focus on manufacturing, agriculture, construction, energy, business logistics,the medicalTen fields including health, elderly care services, education, safety emergency and extreme environment applications, and commercial community services.
At present, the robot industry is booming, gradually penetrating into thousands of industries, and is greatly changing human production and lifestyle. In order to lead the application and development of the Robot Industry, 17 departments including the Ministry of Industry and Information Technology, the Ministry of Education, and the Ministry of Public Security recently issued the “Robot + “Application Action Implementation Plan”, which proposes that by 2025, the density of manufacturing Robots will be doubled compared with 2020,service robot,Special robotThe depth and breadth of industry applications have been significantly improved, and the ability of robots to promote high-quality economic and social development has been significantly enhanced.
The “Plan” pointed out that focusing on 10 key application areas, the robot industry will break through more than 100 innovative application technologies and solutions for robots, and promote more than 200 typical application scenarios of robots with high technical level, innovative application models and significant application results. Create a batch of “robot +” application benchmarking enterprises, and build a batch of application experience centers and test verification centers.
First, manufacturing. Develop new Robotic products such as welding, assembly, spraying, handling, grinding and polishing, and accelerate the application and expansion of Robotic production equipment to related fields.
Develop specialized and customized solutions and software and hardware products, accumulate experience and knowledge such as model libraries and process software packages, deeply integrate robot control software and integrated application systems, and promote the development of Industrial and commercial industries in the fields of automobiles, electronics, machinery, light industry, textiles, building materials, Medicine and other industries that have formed large-scale applications, sanitary ware, ceramics, photovoltaics, smelting, casting, sheet metal, hardware, furniture and other subdivisions, spraying glaze, trimming, polishing, grinding, welding, spraying, handling, palletizing and other key applications.
Promoting the construction of intelligent manufacturing demonstration factories, creatingIndustrial robotTypical application scenarios.Develop intelligent manufacturing systems based on industrial robots to help the manufacturing industrydigital transformationIntelligent change.
Second, agriculture. Research and develop operation robots for farming and land preparation, breeding and seedling raising, sowing, irrigation, plant protection, picking and harvesting, sorting, inspection, milking, etc., as well as feeding, cleaning, disinfection, disease prevention, environmental control, and livestock products for livestock and poultry aquaculture Collection and other robotic products.
Develop special control systems, autonomous intelligent mobile platforms and operating components, promote the adaptation of robots to farmland, agronomy, and varieties, and realize online information perception, fine production control, unmanned autonomous operations, and efficient operation and maintenance management.Create hilly and mountainous areas, large fields, facility gardening, animal husbandry and aquatic products, storage, transportation and processing, etc.agricultural robotApplication scenarios. Accelerate the intelligent transformation of agricultural, forestry, animal husbandry and fishery infrastructure and production equipment, promote the deep integration of robots with agricultural planting, breeding, forestry, and fishery production, and support the development of smart agriculture.
Third, architecture. Research and develop robot products for measurement, material distribution, steel bar processing, concrete pouring, floor and wall decoration, component installation and welding, electromechanical installation, etc. Improve the adaptability of robots to the construction and maintenance of infrastructure under special natural conditions such as plateau alpine, severe weather, and special geology, as well as the construction and maintenance of large and complex infrastructure such as long mountain tunnels, super-long-span bridges, and deep-water channels.
Promote the innovative application of robots in the production of prefabricated concrete components, blanking and welding of steel components, partition wall panels and integrated kitchen and bathroom processing, as well as in the operation and maintenance of building safety monitoring, security inspections, and high-rise building cleaning. Promote the expansion of the application space of construction robots, and help the coordinated development of intelligent construction and new construction industrialization.
Fourth, energy. Research and develop robotic products for energy infrastructure construction, inspection, operation, maintenance, and emergency response. Promote enterprises to break through the key technologies of movement, perception, and operation in complex environments such as high altitudes, narrow spaces, and strong electromagnetic fields.
Promote the application of robots in energy infrastructure scenarios such as wind farms, photovoltaic power stations, hydropower stations, nuclear power stations, oil and gas pipeline networks, hub substations, important converter stations, backbone power grids, and important power transmission channels. Promote the deep integration of robots and energy fields to help build a modern energy system.
Fifth, commercial logistics.Develop automatic guided vehicles, autonomous mobile robots, distribution robots, automatic palletizers, intelligent sorters, logisticsdroneand other products. promote 5G,machine vision, navigation, sensing, motion control, machine learning, big data and other technology fusion applications. Support the intelligent transformation of traditional logistics facilities, and improve the work efficiency and management level of warehousing, loading and unloading, handling, sorting, packaging, distribution and other links.
Encourage robot companies to develop overall solutions for terminal delivery, and promote the popularization and promotion of multi-modal linkage instant delivery scenarios such as robot delivery and smart letterboxes (smart express boxes).Create a smart logistics system focusing on robots to improve business logisticsDigitizinglevel.
Sixth, medical health.Research and development consulting services, surgery, auxiliary inspection, auxiliary inspection, intensive care, first aid, life support, rehabilitation, inspection and sampling, disinfection and cleaning, etc.medical robotproduct. Focusing on the needs of rehabilitation treatment such as nervous system injury, post-injury brain cognitive dysfunction, and paralyzed walking aids, breakthroughs in brain-computer interaction and other technologies have been developed to develop auxiliary robot products for injury rehabilitation.
Accelerate the promotion of breakthroughs in basic theories, common key technologies, and innovative applications of robotics and medical artificial intelligence, and accelerate the application of new technologies and products such as artificial intelligence-assisted diagnosis systems, robotic 5G remote surgery, and brain-computer interface-assisted rehabilitation systems. Promote the application of robots in hospital rehabilitation, telemedicine, health and epidemic prevention and other scenarios.
Encourage hospitals with conditions and needs to use robots to perform precise minimally invasive surgery, build standardized operating rooms for robot applications, and study standard specifications for clinical application of surgical robots. Strengthen the application of robots in the overall disease course service system of pre-hospital management, in-hospital diagnosis and treatment, and post-hospital rehabilitation tracking to help the construction of smart medical care.
Seventh, pension services. Develop robot products for the elderly and the disabled, such as disability assistance, bathing assistance, toilet care, rehabilitation training, housework, emotional escort, entertainment and leisure, and security monitoring. Accelerate the application of new technologies such as multimodal quantitative evaluation, multi-information fusion emotion recognition, compliant and adaptive human-computer interaction, and artificial intelligence assistance in the field of elderly care services, and actively promote the application of exoskeleton robots and elderly care robots in elderly care service scenarios. App verification.
Encourage relevant experimental bases in the field of elderly care to use robot applications as an important part of experimental demonstrations, develop and promote technology to help the elderly, new technologies, new products, and new models. Research and formulate standards and specifications for the application of robotics to help the elderly and the disabled, promote the integration of robots into different scenarios and key areas of elderly care services, and improve the level of intelligence in elderly care services.
Eighth, education.Develop interactions, teaching, competitions, etc.educational robotProducts and programming systems, classification and construction of robot service platforms. Increase robot education guidance, improve robot teaching content and practice environment in colleges and universities at all levels, and develop more functions and supporting course content for teaching, training, competition and other scenarios.
Strengthen the construction of related majors in robotics engineering, improve the level of experimental robot products and platforms, and strengthen standardized management. Promote the integration and application of 5G, artificial intelligence, intelligent voice, machine vision, big data, digital twins and other technologies and robot technology, actively cultivate new models and new forms of robot campus services, and deepen the application of robots in teaching and scientific research, skill training, campus security and other scenarios .
Ninth, business community service.Develop commercial robots for catering, delivery, welcome, tour guide, consultation, cleaning, transportation, etc., as well as cooking, cleaning, guardianship, companionship, etc.home robotStrengthen application scenario exploration and product form innovation, improve the level of interaction between intelligent hardware and users, and enhance the value of robot services.
Promote the integration of robotics technology with new technologies such as 5G, cloud computing, and intelligent sensing to realize functions such as autonomous navigation, automatic obstacle avoidance, human-computer interaction, voice and visual recognition, and data analysis. Actively promote the integration of robots into service scenarios such as hotels, restaurants, supermarkets, communities, and homes, to meet the needs of commercial and community consumption experience upgrades, and to improve the intelligence level of business services and life services.
Tenth, safety emergency and extreme environment applications. Develop robot products in fields such as mines, civil explosives, social security, emergency rescue, and extreme environments. Enhance robot stereo vision, outdoor navigation and positioning, multi-dimensional information perception, remote disaster warning, robot authentication control and other functions, and develop robots that are resistant to extreme cold, open flames, high temperature and pressure, flammable and explosive, high altitude and low pressure, poisonous, high humidity, Adaptive technology for complex unstructured operating environments such as water accumulation, high dust, radiation, and large changes in the flow of people.
Promote the application of intelligent mining, disaster prevention, inspection and duty, underground rescue, intelligent cleaning, unmanned transportation, geological exploration, dangerous operations and other mining scenarios. Promote the application of safety production scenarios such as on-site inspections of hazardous chemical production devices and storage facilities, on-duty on-duty, and special operations. Promote the application of explosives charging, production preparation, packaging, loading and unloading transportation, online detection and other civil explosive industry scenarios.
Promote the application of social security scenarios such as security patrols, anti-smuggling and security inspections, anti-terrorism and anti-riot, investigation and evidence collection, traffic border defense, public security control, special warfare disposal, and service management. Strengthen the application of explosion-proof and explosion-proof, fire inspection, engineering rescue, marine fishing, marine oil spill and ship rescue of hazardous chemicals, natural disaster rescue, safety production accident rescue, nuclear emergency safety rescue and other hazardous environment applications. Promote the application of extreme environmental scenarios such as space, underwater, and deep ground.
The release of “”Robot +” Application Action Implementation Plan” pointed out the direction for the development of the industry and pushed the development of the robot industry to a new stage. In 2023, the robot industry will focus more on market demand and accelerate large-scale application. Usher in another period of rapid development.