On March 3, theShenzhencityembodied intelligence robotThe Action Plan for Technological Innovation and Industrial Development (2025-2027) was issued. It mentions that by 2027, the number ofrobotKey core components, AI chips, artificial intelligence and robotics integration technology, multi-modal perception technology, high-precision motion control technology, dexterous operation technology and other aspects of breakthroughs. Cultivate more than 10 enterprises with valuation over 10 billion yuan, more than 20 enterprises with revenue over one billion yuan, realize more than 50 billion application scenarios, and the scale of related industries will reach more than 100 billion yuan, with more than 1,200 enterprises related to the intelligent robotics industry cluster. We will build a public service platform matrix, attract more upstream and downstream enterprises, research institutions and innovation teams to join us, form a more complete industrial ecology, and reach the international leading level in the comprehensive strength of the body-intelligent robotics industry.
The full text of the 1AI attachment follows:
Shenzhen Action Plan for Technological Innovation and Industrial Development of Body-Intelligent Robots (2025-2027)
In order to seize the strategic opportunity of the integration and development of global artificial intelligence and robotics technology, accelerate the construction of the innovation ecology of the embodied intelligent robotics industry, promote the high-quality leapfrog development of the embodied intelligent robotics industry, speed up the construction of the international and domestic leading embodied intelligent robotics industry cluster, and accelerate the creation of the industrial science and technology innovation center of global significance and influence, in accordance with the "Implementation Plan on Accelerating the Development of New Productivity and Further Promoting the High Quality Development of Strategic Emerging Industry Clusters and Future Industries Implementation Program on Accelerating the Development of New Quality Productivity to Further Promote the High-quality Development of Strategic Emerging Industry Clusters and Future Industries", "Shenzhen Accelerates the Building of Artificial Intelligence Pioneer City Action Program", "Shenzhen Cultivates and Develops Future Industry Action Plan (2024-2025)" and other documents, combined with the actual situation of our city, to formulate this action plan.
I. Development goals
By 2027,Breakthroughs in key core robot components, AI chips, artificial intelligence and robot fusion technology, multimodal sensing technology, high-precision motion control technology, dexterous operation technology, etc.The new cultivation of the valuation of more than 10 billion enterprises, revenue of more than 20 billion enterprises. Cultivate more than 10 enterprises with valuation over 10 billion yuan, more than 20 enterprises with revenue over one billion yuan, realize more than 50 billion application scenarios, and the scale of related industries will reach more than 100 billion yuan, with more than 1,200 enterprises related to the embodied intelligent robotics industry cluster. We will build a public service platform matrix, attract more upstream and downstream enterprises, research institutions and innovation teams to join us, form a more complete industrial ecology, and reach the international leading level in the comprehensive strength of the body-intelligent robotics industry.
II. Priority tasks
(i) Leading breakthroughs in core technologies
Focus on supporting key core technology research and development of core components of body-intelligent robots, AI chips, bionic dexterous hands, base and vertical large models, and ontology control.In order to unveil the list of commanders, project manager system, owner system and other ways to organize the implementation of major scientific and technological special projects in phases and batches.
1. Carry out research on core components. Tackle high energy density micro-motor and drive technology, and develop high-precision micro-integrated joint modules. Tackle six-dimensional force, electronic skin and multi-dimensional tactile sensing technologies, and develop high-precision multimodal sensors for vision, touch and force. Develop high-performance and highly integrated brain-like visual sensors. Develop high energy density and lightweight batteries.
2. Increase robot AI chip research. Research on a new AI chip architecture that integrates neural network processor instruction set architecture, integrated computing architecture, heterogeneous multi-core architecture, low-power mode and algorithmic tool chain. Develop robot AI chips that support Chiplet integration and expansion, VLA/VTLA end-to-end large model and multimodal large model inference acceleration, cognitive inference brain-like chips, low-latency driver interfaces, multisensor interfaces, and low-power consumption. Develop robot end-to-end computing chips and modules, and promote localization substitution.
3. Develop high-performance bionic multi-fingered dexterous hands. Make breakthroughs in bionic refinement structure, lightweight and high-strength materials and muscle-like driving technology, and develop bionic multi-fingered dexterous hands with high load, high flexibility and fine operating ability. We will study the control algorithms of dexterous hand multi-degree-of-freedom movement, multi-finger synergy, and knuckle dynamic suppleness, and investigate the hand-eye-brain synergy of dexterous operation technology.
4. Construct a base of embodied intelligence and a large model of vertical domains. Based on the world model and multimodal inputs and outputs such as vision-tactile-linguistic-action (VTLA), construct a large model of embodied intelligence base with interaction, prediction and decision-making capabilities, as well as its training and inference technology system, so as to form the capability of long-sequence inference (COT) and autonomic learning, and support cross-scene task processing. Focusing on key application scenarios, develop vertical application large models.
5. Breakthrough in body-intelligent ontology control technology. Research on human body data-driven arms, legs, waist and abdomen core synergistic control technology, breakthroughs in coordinated operation trajectory planning technology based on human arm movement characteristics and nonlinear real-time lower limb synergistic control technology.
(ii) Building a matrix of public service platforms
6. Promote the construction of key laboratories with high standards. Support the Futian Laboratory to break through the key core technologies of perception, movement, decision-making and interaction of embodied intelligence, and build a cutting-edge and open platform base for embodied intelligence. Support the Guangming Laboratory to build the Greater Bay Area Rise Computing Power Application Innovation Research Institute, and promote the development of Rise AI algorithms and open-source community ecological construction. Support the formation of a city key laboratory in the field of embodied intelligence robotics.
7. Create an innovative service platform at a high level. Support the International Advanced Technology Application Promotion Center (Shenzhen) to build a test site for embodied intelligence technology, and promote the application of scenarios to the ground. Support the Shenzhen Institute of Artificial Intelligence and Robotics to build the Guangdong Province Robotics Innovation Center of Embodied Intelligence, and drive upstream and downstream industries to collaborate on technology research and industrial applications. Build open innovation platforms, open source communities, evaluation and adaptation centers, innovation centers and other public technical service platforms for the field of embodied intelligence, and configure common model libraries and other upstream and downstream resources of the industrial chain and open sharing. Support enterprises to establish R&D centers in domestic talent gathering places.
8. High-level layout of inspection and testing platforms and small and medium-sized test bases. It will carry out research on key technologies for testing and evaluating embodied intelligent robots, formulate inspection and testing methods, and strengthen the research and development of key testing equipment and devices. Develop certification standards and processes for embodied intelligent robots, build a national testing and certification organization, and improve evaluation tools. Layout proof-of-concept centers, small and medium-sized test bases and other industrial innovation service carriers.
9. Construct open-source data sets on cross-ontology diversity. Research on the decoupling of embodied data acquisition, remote operation and human teaching methods, and carry out key technology research on embodied data acquisition. Facing typical vertical application fields, build a technical testing ground and develop a real-machine data acquisition platform and a data simulation platform based on multimodal data elements such as vision, touch, force and position. Utilize the equipment sharing platform to enrich data sources and enhance the diversity and applicability of data sets. Encourage leadership and participation in the development of local, national and international standards in the field of embodied data collection, and generate and release open-source datasets.
10. Strengthening the support of training capacity for embodied intelligence models. Through the "training vouchers", efforts will be stepped up to support enterprises, universities and research institutions in renting intelligent computing power inside and outside the city to carry out training and application of embodied intelligence models.
11. Promote the construction of standard systems and the protection of intellectual property rights. Formulate a number of standards in the fields of hardware and software interface, evaluation and testing, scene application, safety and ethics of embodied intelligent robots. Support the establishment of the Shenzhen Robotics Standardization Technical Committee. Create a "one-stop" collaborative protection platform for intellectual property rights in Shenzhen.
(iii) Creating an optimal science, technology and innovation ecosystem
12. Enhance the scale of manufacturing capacity. Support the construction of manufacturing factories with body-intelligent robotics enterprises, and incorporate the key industrial investment projects implemented by them into the Industrial Projects Directory.
13. Support the first (set) application and the cultivation of explosive products. Focus on supporting the body with intelligent robotics enterprises to enhance product development and technology level, promote new products, new technologies for the first time application and industrialization, and actively cultivate competitive explosive products.
14. Accelerate the opening of application scenarios. Focusing on key areas such as government services, industrial manufacturing, education, health care, transportation, meteorology, economic operation, public security, ecological protection, etc., no fewer than 50 application scenarios will be opened on a rolling basis.
15. Strengthen supply chain collaboration and innovation. Establish an alliance of embodied intelligent robots to promote cooperation between machine manufacturers and parts suppliers. Encourage downstream enterprises to actively try out the products developed by alliance member enterprises.
16. Accurate service "chain master" enterprises. Support leading enterprises to innovate independently, grow bigger and stronger, and precisely serve enterprises that play a leading role in the intelligent robotics industry chain, and increase support in terms of funds and space.
17. Support enterprises to expand overseas. To build a trading platform for core components of intelligent robots to serve the whole world. Provide enterprises with overseas market information, legal and regulatory counseling, talent recruitment and other services. Support enterprises to go overseas to develop the international market, simplify the customs clearance process for exporting products with intelligent robots, improve the efficiency of customs clearance, and reduce the cost of enterprises.
18. Deepen industry exchanges and cooperation. Organize forums, exhibitions, tournaments and other industry activities with international influence, such as the High-Tech Fair and the Dexterity Competition. Encourage international exchanges and cooperation among enterprises, universities and research institutions.
III. Safeguards
Set up industrial task force, coordinate functional departments, key carrying areas, universities, institutes and enterprise bodies, establish dynamic monitoring of industrial development, cutting-edge technology research and policy planning synergy mechanism, deepen the top-level design of the industry; implement the top talent attraction project and scientific and technological innovation talent special, improve the school-enterprise joint cultivation system, consolidate the support for the development of talents in the industry; focusing on body-intelligent robots, dexterous hands, and other segments to build a specialized park. Specialized parks will be built, and robot-friendly demonstration parks will be created in the form of robot theaters, future neighborhoods and other innovative forms to strengthen the industrial ecological space bearing.
