Key Drivers in Humanoid Robot Development
26 April 2025 · Uncategorized ·
Source: · https://www.cnr.cn/tech/techgsrw/20250110/t20250110_527036678.shtml
Result
The human-shaped robot industry, as a representative field for developing new productive forces, is entering a period of upward growth, offering great potential and broad application prospects. This field integrates advanced technologies such as artificial intelligence, high-end manufacturing, and new materials.
Humanoid robots represent the deep integration of AI technology with robot mechanical-electrical technology, embodying AI applications in embodied artificial intelligence (EAI). They have the potential to be disruptive products, akin to computers, smartphones, and new energy vehicles, profoundly impacting human production lifestyles and reshaping global industrial development patterns. As of February 2024, China has 24,747 companies engaged in humanoid robotics, including 1,051 specialized small and medium-sized enterprises designated by the state.
Several policies have been introduced to support this growth. These include pre-research on systematic evaluation standards for humanoid robot mobility, operation, interaction, intelligent capability grading, and performance assessment; safety standards for electromechanical systems, human-machine interaction, and data privacy; and application standards for industrial, household service, public service, and special operation scenarios. A roadmap aims to establish a preliminary innovative system in humanoid robots by 2025, cultivating two or three globally influential ecosystem enterprises and fostering a batch of specialized small and medium-sized enterprises. By 2027, innovation capability should significantly improve, forming a safe and reliable industrial chain supply system and constructing an industry ecology with international competitiveness.
In response, various regions have introduced corresponding measures to actively develop the humanoid robot sector, focusing on cutting-edge technologies and future strategic demands. This includes accelerating research and engineering application of whole machine products and key components, promoting the evolution of robotic technology from “imitating humans” to “being like humans,” and striving to reduce product costs for large-scale commercialization. Jiangsu Province aims to achieve breakthroughs in key core technologies such as humanoid robot “brain, small brain, and body” by 2027.
However, challenges remain. The industry faces hurdles in areas like technological maturity, cost reduction, and application development. Addressing these challenges requires a concerted effort to advance core technologies, optimize the industrial ecosystem, and foster collaboration between stakeholders.
To achieve sustainable growth and global leadership in this field, China is focusing on the following key drivers:
Technological Advancements: Prioritizing research and development in areas such as advanced sensors, artificial intelligence algorithms, and robust mechanical designs.
Industrial Ecosystem Optimization: Building a comprehensive supply chain, including component manufacturers, software developers, and system integrators.
Application Development: Expanding the use of humanoid robots in diverse sectors, such as manufacturing, healthcare, and logistics.
Collaboration & Standardization: Fostering collaboration between central and local governments, enterprises, and research institutions, and refining standards for embodied AI applications in humanoid robotics.
By addressing these challenges and capitalizing on these opportunities, China aims to foster an advanced and sustainable industrial environment for humanoid robotics. Professionals should work together to create a robust support system that encourages innovation while ensuring safety and reliability. This comprehensive approach will help the industry reach new heights and contribute significantly to global technological advancement in robotics.
Ttl: Seizing the Key Drivers for Developing Humanoid Robots
Cnt: Ma Xiaoqiang
The human-shaped robot industry, as a representative field for developing new productive forces, is entering a period of upward growth, offering great potential and broad application prospects. This field integrates advanced technologies such as artificial intelligence, high-end manufacturing, and new materials.
Humanoid robots represent the deep integration of AI technology with robot mechanical-electrical technology, embodying AI applications in embodied artificial intelligence (EAI). They have the potential to be disruptive products, akin to computers, smartphones, and new energy vehicles, profoundly impacting human production lifestyles and reshaping global industrial development patterns. As of February 2024, China has 24,747 companies engaged in humanoid robotics, including 1,051 specialized small and medium-sized enterprises designated by the state.
Several policies have been introduced to support this growth. These include pre-research on systematic evaluation standards for humanoid robot mobility, operation, interaction, intelligent capability grading, and performance assessment; safety standards for electromechanical systems, human-machine interaction, and data privacy; and application standards for industrial, household service, public service, and special operation scenarios. A roadmap aims to establish a preliminary innovative system in humanoid robots by 2025, cultivating two or three globally influential ecosystem enterprises and fostering a batch of specialized small and medium-sized enterprises. By 2027, innovation capability should significantly improve, forming a safe and reliable industrial chain supply system and constructing an industry ecology with international competitiveness.
In response, various regions have introduced corresponding measures to actively develop the humanoid robot sector, focusing on cutting-edge technologies and future strategic demands. This includes accelerating research and engineering application of whole machine products and key components, promoting the evolution of robotic technology from “imitating humans” to “being like humans,” and striving to reduce product costs for large-scale commercialization. Jiangsu Province aims to achieve breakthroughs in key core technologies such as humanoid robot “brain, small brain, and body” by 2027.
However, challenges remain. The industry faces hurdles in areas like technological maturity, cost reduction, and application development. Addressing these challenges requires a concerted effort to advance core technologies, optimize the industrial ecosystem, and foster collaboration between stakeholders.
To achieve sustainable growth and global leadership in this field, China is focusing on the following key drivers: Technological Advancements, Industrial Ecosystem Optimization, Application Development, and Collaboration & Standardization.
By addressing these challenges and capitalizing on these opportunities, China aims to foster an advanced and sustainable industrial environment for humanoid robotics. Professionals should work together to create a robust support system that encourages innovation while ensuring safety and reliability. This comprehensive approach will help the industry reach new heights and contribute significantly to global technological advancement in robotics.
Cnt: Ma Xiaoqiang
The text was edited for clarity, flow, and to avoid repetition. The "However, challenges remain" paragraph was added to acknowledge existing issues. The final paragraph was restructured to summarize key drivers.
The human-shaped robot industry, as a representative field for developing new productive forces, is entering a period of upward growth, offering great potential and broad application prospects. This field integrates advanced technologies such as artificial intelligence, high-end manufacturing, and new materials.
Humanoid robots represent the deep integration of AI technology with robot mechanical-electrical technology, embodying AI applications in embodied artificial intelligence (EAI). They have the potential to be disruptive products, akin to computers, smartphones, and new energy vehicles, profoundly impacting human production lifestyles and reshaping global industrial development patterns. As of February 2024, China has 24,747 companies engaged in humanoid robotics, including 1,051 specialized small and medium-sized enterprises designated by the state.
Several policies have been introduced to support this growth. These include pre-research on systematic evaluation standards for humanoid robot mobility, operation, interaction, intelligent capability grading, and performance assessment; safety standards for electromechanical systems, human-machine interaction, and data privacy; and application standards for industrial, household service, public service, and special operation scenarios. A roadmap aims to establish a preliminary innovative system in humanoid robots by 2025, cultivating two or three globally influential ecosystem enterprises and fostering a batch of specialized small and medium-sized enterprises. By 2027, innovation capability should significantly improve, forming a safe and reliable industrial chain supply system and constructing an industry ecology with international competitiveness.
In response, various regions have introduced corresponding measures to actively develop the humanoid robot sector, focusing on cutting-edge technologies and future strategic demands. This includes accelerating research and engineering application of whole machine products and key components, promoting the evolution of robotic technology from “imitating humans” to “being like humans,” and striving to reduce product costs for large-scale commercialization. Jiangsu Province aims to achieve breakthroughs in key core technologies such as humanoid robot “brain, small brain, and body” by 2027.
However, challenges remain. The industry faces hurdles in areas like technological maturity, cost reduction, and application development. Addressing these challenges requires a concerted effort to advance core technologies, optimize the industrial ecosystem, and foster collaboration between stakeholders.
To achieve sustainable growth and global leadership in this field, China is focusing on the following key drivers:
Technological Advancements: Prioritizing research and development in areas such as advanced sensors, artificial intelligence algorithms, and robust mechanical designs.
Industrial Ecosystem Optimization: Building a comprehensive supply chain, including component manufacturers, software developers, and system integrators.
Application Development: Expanding the use of humanoid robots in diverse sectors, such as manufacturing, healthcare, and logistics.
Collaboration & Standardization: Fostering collaboration between central and local governments, enterprises, and research institutions, and refining standards for embodied AI applications in humanoid robotics.
By addressing these challenges and capitalizing on these opportunities, China aims to foster an advanced and sustainable industrial environment for humanoid robotics. Professionals should work together to create a robust support system that encourages innovation while ensuring safety and reliability. This comprehensive approach will help the industry reach new heights and contribute significantly to global technological advancement in robotics.
Ttl: Seizing the Key Drivers for Developing Humanoid Robots
Cnt: Ma Xiaoqiang
The human-shaped robot industry, as a representative field for developing new productive forces, is entering a period of upward growth, offering great potential and broad application prospects. This field integrates advanced technologies such as artificial intelligence, high-end manufacturing, and new materials.
Humanoid robots represent the deep integration of AI technology with robot mechanical-electrical technology, embodying AI applications in embodied artificial intelligence (EAI). They have the potential to be disruptive products, akin to computers, smartphones, and new energy vehicles, profoundly impacting human production lifestyles and reshaping global industrial development patterns. As of February 2024, China has 24,747 companies engaged in humanoid robotics, including 1,051 specialized small and medium-sized enterprises designated by the state.
Several policies have been introduced to support this growth. These include pre-research on systematic evaluation standards for humanoid robot mobility, operation, interaction, intelligent capability grading, and performance assessment; safety standards for electromechanical systems, human-machine interaction, and data privacy; and application standards for industrial, household service, public service, and special operation scenarios. A roadmap aims to establish a preliminary innovative system in humanoid robots by 2025, cultivating two or three globally influential ecosystem enterprises and fostering a batch of specialized small and medium-sized enterprises. By 2027, innovation capability should significantly improve, forming a safe and reliable industrial chain supply system and constructing an industry ecology with international competitiveness.
In response, various regions have introduced corresponding measures to actively develop the humanoid robot sector, focusing on cutting-edge technologies and future strategic demands. This includes accelerating research and engineering application of whole machine products and key components, promoting the evolution of robotic technology from “imitating humans” to “being like humans,” and striving to reduce product costs for large-scale commercialization. Jiangsu Province aims to achieve breakthroughs in key core technologies such as humanoid robot “brain, small brain, and body” by 2027.
However, challenges remain. The industry faces hurdles in areas like technological maturity, cost reduction, and application development. Addressing these challenges requires a concerted effort to advance core technologies, optimize the industrial ecosystem, and foster collaboration between stakeholders.
To achieve sustainable growth and global leadership in this field, China is focusing on the following key drivers: Technological Advancements, Industrial Ecosystem Optimization, Application Development, and Collaboration & Standardization.
By addressing these challenges and capitalizing on these opportunities, China aims to foster an advanced and sustainable industrial environment for humanoid robotics. Professionals should work together to create a robust support system that encourages innovation while ensuring safety and reliability. This comprehensive approach will help the industry reach new heights and contribute significantly to global technological advancement in robotics.
Cnt: Ma Xiaoqiang
The text was edited for clarity, flow, and to avoid repetition. The "However, challenges remain" paragraph was added to acknowledge existing issues. The final paragraph was restructured to summarize key drivers.