2026 Spring Festival Gala WUBOT

Introduction: WUBOT – A Showcase of Technology and Culture on Spring Festival Gala

Hosted by China Central Television (CCTV), the Spring Festival Gala serves as more than just a grand cultural feast for Chinese people worldwide celebrating the Chinese New Year—it also vividly showcases China's scientific and technological advancements and cultural confidence.

On the evening of the first day of the Bingwu Year of the Horse, the 2026 Spring Festival Gala featured a breathtaking martial arts performance, WUBOT (武BOT, 武wǔ, means martial arts, the martial arts bot ). This landmark show seamlessly blended traditional Chinese martial arts with the country’s cutting-edge humanoid robot technology, leaving audiences in awe.

In the performance, humanoid robots independently developed by China’s Unitree Technology joined young martial artists from Henan Tagou Martial Arts School in a splendid "contest" that pitted technology against tradition.

The WUBOT robots executed exquisite martial arts moves—from long stick techniques and drunken fist to nunchaku and sword dance. These performances dazzled audiences at home and abroad, opening a window for the world to witness the rapid growth of China’s robot industry and the maturity of its humanoid robot technology.

Behind WUBOT’s stunning display lies decades of arduous exploration and remarkable achievements in China’s robot sector. Starting with the introduction of foreign robot technology, the industry has evolved to embrace independent research and development—moving from laboratory prototypes to large-scale industrial use, and from single-functional robots to intelligent collaborative systems. Today, China’s humanoid robots have taken a leap forward, emerging as a key force shaping the global robot industry.

WUBOT Performance 2026: Perfect Fusion of Traditional Martial Arts and China's Humanoid Robot Technology

One of the most anticipated programs at the 2026 Spring Festival Gala, WUBOT broke the mold of traditional martial arts performances. By blending technology with culture, it created an innovative format that quickly became a hot topic in discussions about China’s robot development.

Co-performed by Unitree’s humanoid robots G1 and H2—core products of China’s humanoid robot industry—and young martial artists from Henan Tagou Martial Arts School, the show featured a palace-style stage adorned with white, blue, and gold tones.

Dappled light and golden pine tree shadows in the background set a solemn yet magnificent tone. This backdrop highlighted the striking contrast between the cold precision of China’s humanoid robot technology and the warmth of its traditional culture, making the performance all the more engaging.

Long Stick Display: Demonstrating High-Precision Control of Humanoid Robots

The WUBOT performance opened with a powerful long stick display, a vivid demonstration of the high-precision control capabilities of China’s humanoid robots.

Dozens of Unitree G1 robots and young martial artists stood in neat formation, each holding a long stick. As the music played, they moved in perfect unison—raising, chopping, sweeping, poking, and lifting their sticks with crisp, precise movements that showcased impeccable strength and accuracy.

Unlike the rigid movements of traditional robots, the G1 robots in WUBOT exhibited remarkable control flexibility—a key strength of China’s latest humanoid robot technology.

When swinging their long sticks, the robots precisely adjusted their strength and angle, avoiding collisions while maintaining the aesthetic appeal of their movements.

This precision stems from the robots’ high-performance servo systems and advanced motion control algorithms—core technologies driving China’s humanoid robot development.

With a servo response speed of 0.001 seconds and a joint control error of just 0.01 millimeters, Unitree’s G1 robots rank among the world’s best in humanoid robot motion control.

It is this precise control that allowed the WUBOT robots to perfectly capture the essence of traditional Chinese martial arts, standing alongside the young artists to showcase the tough beauty of martial arts.

Drunken Fist Performance: A Breakthrough in Anthropomorphic Movement

The subsequent drunken fist performance emerged as the highlight of the WUBOT program, highlighting a major breakthrough in China’s humanoid robot technology for anthropomorphic movement.

The Unitree H2 robots mimicked the erratic yet elegant postures of drunken fist—staggering steps, swaying bodies—yet every seemingly casual movement carried hidden power, perfectly capturing the core spirit of "drunken but not disorderly."

In the past, simulating such complex, highly human-like movements proved challenging for robots. Drunken fist has no fixed routine; it requires real-time adjustments to posture and strength based on rhythm and context, placing immense demands on a robot’s motion planning and real-time control capabilities—long-standing technical hurdles in China’s humanoid robot development.

The H2 robots in WUBOT, however, successfully overcame this barrier. Supported by Unitree’s open-sourced 40-billion-parameter embodied intelligent large model "Thinker"—a core achievement of China’s robot intelligence technology—the robots analyzed and adapted to movement rhythms in real time. They dynamically adjusted their actions, even simulating the slight shaking and unsteadiness of a drunk person, making the performance far more realistic and vivid.

Many audience members noted they could barely believe such delicate, flexible drunken fist moves came from robots—a testament to the remarkable progress of China’s humanoid robot technology.

Nunchaku and Sword Dance: Pushing the Atmosphere to a Fever Pitch

The following nunchaku and sword dance segments elevated the performance’s energy to new heights, further highlighting the comprehensive strength of China’s humanoid robot technology.

In the nunchaku segment, H2 robots wielded metal nunchakus, swinging them rapidly to the music’s rhythm. The nunchakus spun through the air with a crisp sound, each swing, rebound, and rotation executed with precision and power—revealing the robots’ exceptional dynamic control capabilities.

The sword dance featured a 1.8-meter-tall H2 robot dressed in a red robe, wielding a long sword as it danced gracefully across the stage. The red robe fluttered with its movements, and the sword’s silver glow cut through the air, creating a stunning visual impact alongside the white, blue, and gold stage design.

The robot’s sword dance blended elegance with strength, merging the softness of dance with the toughness of martial arts to perfectly convey the unique charm of Chinese swordsmanship.

Throughout the entire WUBOT performance, the humanoid robots and young martial artists worked in perfect harmony—alternating movements, echoing each other’s energy—to create a beautiful portrait of technology integrated with tradition.

The 8-minute performance was flawless from start to finish. The robots’ precise execution earned warm, prolonged applause from the audience and high praise from media around the world, becoming a classic example of China’s humanoid robot technology reaching the public.

High Localization Rate of Core Components: A Key Milestone

Even more notable is the over 90% localization rate of the WUBOT robots’ core components—a critical milestone in China’s robot industry development.

Key components like controllers, servo systems, and precision reducers—once major bottlenecks limiting China’s robot development—are now fully independently developed and produced by Chinese enterprises.

This achievement not only breaks the foreign monopoly on core components but also signifies that China’s robot technology has achieved independent and controllable development.

China’s independently developed precision reducers match imported products in performance—boasting an accuracy of ±1 arc minute and a service life of 20,000 hours—while costing only about 60% as much. This has significantly reduced the production cost of domestic humanoid robots.

WUBOT’s perfect performance was more than just an audio-visual feast; it was a powerful display of China’s robot technology strength, confirming that China’s humanoid robot technology has entered the world’s leading ranks.

China's Robot Industry Development Course: From Following to Leading the Global Humanoid Robot Trend

WUBOT’s brilliant performance did not happen by chance. It is the fruit of long-term development and unrelenting effort in China’s robot industry.

China’s robot industry has evolved through three distinct stages: introduction and digestion, independent research and development, and innovation and leadership. Each stage laid a solid foundation for the maturity of China’s humanoid robot technology.

At every step, Chinese robot researchers and enterprises have pushed forward with arduous exploration, achieving remarkable progress along the way.

Stage 1: Introduction and Digestion (1980s to Early 21st Century)

The first stage—introduction and digestion, spanning the 1980s to the early 21st century—marked the initial start of China’s robot industry.

Before the 1980s, China’s robot industry was essentially non-existent, with no independent capacity to research and develop robots.

As China’s reform and opening up deepened, the state turned its attention to developing the robot industry, importing production technologies and equipment from countries like Japan and Germany through technical cooperation.

During this period, the industry’s primary focus was on digesting and absorbing advanced foreign technologies, mastering robot basic principles and production processes, and building a team of professional and technical personnel. This groundwork was critical for the subsequent independent R&D of humanoid robots.

At the time, robot applications in China were concentrated in the industrial sector—automobile manufacturing and machinery processing, for example—but nearly all robots used were imported, with core technologies tightly controlled by foreign enterprises.

The biggest drawback of this stage was the industry’s heavy reliance on foreign technologies, which led to a serious "lack of core technologies and key components" that hindered sustainable development.

Stage 2: Independent Research and Development (Early 21st Century to 2015)

The second stage—independent research and development, from the early 21st century to 2015—was a pivotal period for China’s robot industry.

As China’s manufacturing industry grew rapidly and demand for industrial automation surged, the limitations of relying on imported robots became increasingly clear. Foreign robots were not only expensive but also failed to meet China’s actual needs in after-sales service and technical support.

In response, the state increased support for the robot industry, rolling out policies to encourage enterprises and research institutions to pursue independent R&D of robot technology.

Domestic enterprises soon emerged—including Siasun, Estun, and Unitree, the developer of WUBOT—focusing on R&D in industrial robots, service robots, and humanoid robots.

This stage saw initial breakthroughs in core technologies, with Chinese enterprises independently developing a range of robot products with independent intellectual property rights.

The localization rate of industrial robots rose steadily, and their applications expanded beyond industry to include medical care, education, and logistics.

Yet compared to the world’s advanced level, China’s robot technology still had gaps—especially in core components like precision reducers and servo systems, which remained dependent on imports to some extent.

Stage 3: Innovation and Leadership (Since 2015)

The third stage—innovation and leadership, beginning in 2015—marks the maturity of China’s robot industry, particularly in humanoid robot technology.

In 2015, the "Made in China 2025" plan was officially released, designating the robot industry as a key development area with clear goals to make China a global leader in the field.

Since then, China’s robot industry has entered a period of rapid growth, with continuous breakthroughs in core technologies, expanding application fields, and a growing industrial scale.

Major advances in core components—controllers, servo systems, and precision reducers—have significantly boosted localization rates, laying the groundwork for the development of WUBOT robots.

By 2025, the localization rate of core components for domestic industrial robots had exceeded 70%, with controllers and servo systems reaching over 90% localization.

In intelligent technology, China’s robot industry has integrated closely with artificial intelligence, big data, and the Internet of Things, developing intelligent robots capable of autonomous perception, decision-making, and learning.

The 2026 Spring Festival Gala’s WUBOT program showcases these achievements. The humanoid robots in the show lead the world in motion control and intelligent interaction, marking China’s official entry into the global elite of robot industries—and its emergence as a leader shaping the future of the global robot sector.

Core Technology Breakthroughs: The Driving Force for China's Humanoid Robot Industry Development

The rapid growth of China’s robot industry—including the mature humanoid robot technology on display in WUBOT—relies on continuous breakthroughs in core technologies.

In recent years, Chinese enterprises and research institutions have focused on overcoming key technical challenges, achieving remarkable progress in core components, motion control, and intelligent interaction. These advances have provided strong technical support for the industry’s high-quality development and the creation of WUBOT robots.

Breakthroughs in Core Components: Breaking Foreign Monopoly

China has achieved comprehensive breakthroughs in core components—once the "bottleneck" holding back its robot industry.

Robot core components—primarily controllers, servo systems, and precision reducers—act as the "heart" and "brain" of robots, with their technical level directly determining performance.

In the past, these components were monopolized by Japanese and German enterprises, forcing Chinese companies to pay high prices for imports. This not only increased production costs but also restricted the industry’s independent development.

In recent years, Chinese enterprises have increased R&D investment in core components. Through continuous exploration and practice, they have finally broken the foreign monopoly—making the high localization rate of WUBOT’s core components possible.

For instance, China’s independently developed precision reducers match imported products in performance, with an accuracy of ±1 arc minute and a 20,000-hour service life—while costing only about 60% as much. This has significantly reduced the production cost of domestic robots.

China’s independently developed servo systems offer fast response speeds, high control precision, and strong reliability, matching the world’s advanced level.

The independently developed controller boasts powerful computing capabilities and good compatibility, enabling precise control of all robot movements and laying a solid foundation for the intelligent development of robots like WUBOT.

Progress in Motion Control Technology: Supporting Complex Movements

China’s robot industry has also made remarkable strides in motion control technology—a key factor in enabling robot movement. This technology directly impacts a robot’s flexibility, accuracy, and stability, and was essential for WUBOT to perform its martial arts moves.

The ability of WUBOT’s humanoid robots to execute complex moves like drunken fist and nunchaku hinges on advanced motion control technology developed independently in China.

The WUBOT robots use high-precision motion control algorithms to plan and adjust movement trajectories in real time, precisely controlling the angle, speed, and strength of each joint.

With a servo response speed of 0.001 seconds and a joint control error of just 0.01 millimeters, these robots are among the world’s best in this field.

Chinese enterprises have also made breakthroughs in cluster control technology, allowing multiple robots to collaborate via wireless communication to complete complex tasks more efficiently.

The seamless cooperation between dozens of WUBOT robots and young martial artists, for example, demonstrates the value of cluster control technology—one that holds great potential for industrial production, logistics, and other fields.

Development of Intelligent Interaction Technology: Endowing Robots with Intelligence

Intelligent interaction technology—another key area for humanoid robot development—has also advanced rapidly in China’s robot industry.

With the rise of artificial intelligence, robots are no longer just simple mechanical devices; they have evolved into intelligent entities capable of interacting with humans.

Chinese enterprises have integrated speech recognition, image recognition, and natural language processing into robot design, enabling robots to understand human language, recognize expressions and gestures, and interact with people naturally and smoothly.

The WUBOT robots, for example, adjusted their movements in real time based on the music and the martial artists’ actions—showcasing exceptional intelligent interaction capabilities.

Unitree’s open-sourced 40-billion-parameter embodied intelligent large model "Thinker"—a core achievement of China’s robot intelligence technology—has solved a major industry challenge: deploying large models on robot terminals. It achieves 99.99% operational accuracy in industrial scenarios, greatly enhancing the intelligence of robots like WUBOT.

In the service sector, many Chinese service robots use intelligent interaction to provide personalized services. Elderly care robots, for example, can chat with seniors, remind them to take medicine, and monitor their health. Educational robots interact with students, answer questions, and help them learn subjects like mathematics, English, and programming.

Advancements in Materials and Manufacturing Technology: Laying the Foundation for Mass Production

China’s robot industry has also made significant progress in materials and manufacturing technology—critical for mass-producing humanoid robots like WUBOT.

A robot’s body material directly affects its weight, strength, and service life. Chinese enterprises have developed high-performance materials for robot bodies—including lightweight alloys and high-strength composites—that reduce weight while maintaining strength and durability.

The Unitree H2 robot in WUBOT, for example, uses a lightweight alloy body that reduces weight while improving flexibility and movement speed.

In manufacturing, Chinese enterprises have adopted advanced technologies like 3D printing and precision machining, boosting manufacturing precision and efficiency while lowering costs. This has laid a solid foundation for large-scale robot production.

Diversified Application Scenarios: The Broad Market Space for China's Humanoid Robot Industry

As core technologies advance and product performance improves—evident in WUBOT’s performance—China’s robots have become widely used across the national economy, forming a diversified application landscape.

This integration not only drives the upgrading of related industries but also brings great convenience to people’s work and daily lives. From industry to services, medical care to education, and logistics to the military, Chinese robots play an increasingly important role—revealing broad market potential and bright development prospects for the industry.

Application in the Industrial Sector: Leading Global Industrial Automation

In industry, industrial robots have become a driving force behind the automation and intelligent upgrading of China’s manufacturing sector. China is now the world’s largest market and producer of industrial robots, with a localization rate exceeding 50%.

In 2025, China’s industrial robot exports rose by 48.7%, surpassing imports for the first time and establishing China as a net exporter of industrial robots—a landmark achievement for the industry.

This milestone reflects China’s leap from a "follower" to a "peer" in the global industrial robot sector—and even a "leader" in some areas.

Chinese industrial robots are used in a wide range of industries, including automobile manufacturing, machinery processing, electronic manufacturing, and food processing.

In automobile factories, humanoid robots collaborate to handle material boxes with a margin of error of just ±5 millimeters, operating up to 16 hours a day at 70% the efficiency of skilled workers.

In electronic manufacturing plants, robots perform welding, assembly, and testing, boosting production efficiency while ensuring product quality.

Vietnam, Mexico, and Thailand are the fastest-growing markets for China’s industrial robot exports. These robots are widely used in Vietnam’s electronic product assembly lines, Mexico’s auto body welding, painting, and assembly processes, and Thailand’s auto parts manufacturing and home appliance production—earning high praise from the global market.

Chinese industrial robots stand out worldwide for their high cost performance, fast delivery, and easy implementation—qualities that align perfectly with the needs of emerging markets.

Application in the Service Sector: Entering Daily Life

In the service sector, service robots have gradually integrated into daily life, bringing greater convenience. This trend—accelerated by WUBOT’s success—represents a key direction for China’s humanoid robot industry.

As China’s aging population grows and living standards rise, demand for service robots continues to increase.

In elderly care, Shenzhen has piloted "elderly care companion robots" that serve over 2,000 elderly households, cutting fall alarm response time from 15 minutes to 30 seconds.

Starting in 2026, the Ministry of Civil Affairs will provide service subsidies to moderately and severely disabled seniors, creating a clear payment channel for elderly care robots.

These robots not only chat with seniors and remind them to take medicine but also monitor their health in real time and send emergency alerts—effectively addressing key elderly care challenges.

In healthcare, medical robots have become invaluable assistants to doctors, used in surgical procedures, medical testing, and drug delivery. Their high precision, minimal trauma, and fast recovery benefits improve surgical success rates and reduce patient pain.

By 2030, the market size of Chinese humanoid robots in healthcare is expected to exceed 20 billion yuan, with a gross profit margin of 60%-80%—far higher than that of industrial robots.

In logistics, robots are used for warehousing, sorting, and transportation, improving efficiency and reducing costs. Large logistics parks operated by JD.com and Alibaba, for example, use numerous logistics robots to sort and transport goods, significantly boosting operational efficiency.

Application in Cultural and Educational Fields: Integrating Technology and Culture

Robots also play an important role in culture and education—building on WUBOT’s successful integration of robots and traditional culture.

The 2026 Spring Festival Gala’s WUBOT program demonstrated how robots can enhance traditional culture, enriching performance formats and promoting cultural inheritance and development.

In education, educational robots are widely used in primary and secondary schools and kindergartens. They interact with students, answer questions, and help teach subjects like mathematics, English, and programming—sparking learning interest and improving comprehensive literacy.

Robots also support cultural heritage protection and performances. For example, they can simulate ancient movements to perform traditional dances and operas, making traditional culture more vivid and accessible to broader audiences.

Application in Other Fields: Expanding Market Boundaries

Chinese robots have also found applications in the military, aerospace, and environmental protection—expanding the industry’s reach.

In the military, robots are used for reconnaissance, patrol, and demining, reducing soldier casualties and enhancing combat effectiveness.

In aerospace, space robots support space station maintenance and satellite assembly, playing a critical role in China’s aerospace endeavors.

In environmental protection, robots handle garbage cleaning and sewage treatment, improving efficiency and advancing ecological civilization.

Market Scale and Development Prospects

As application scenarios expand, China’s robot industry is growing rapidly—opening up broader prospects for humanoid robots like WUBOT.

According to Morgan Stanley, by 2030, China’s humanoid robot sales will reach 262,000 units—more than 100 times the 2025 figure.

2026 is widely recognized as the "first year of mass production" for China’s humanoid robots, with domestic output expected to exceed 100,000 units.

China’s robot rental market is also growing quickly: in 2025, it reached 1 billion yuan (about 143.9 million US dollars), and is projected to surge to at least 10 billion yuan in 2026.

The rental model lowers the barrier for small and medium-sized enterprises and event organizers to use robots. It also provides manufacturers with valuable real-world operational data, helping them optimize and upgrade their products.

Opportunities and Challenges: The Future Development Trend of China's Humanoid Robot Industry

While China’s robot industry has achieved remarkable success—exemplified by WUBOT—it faces both significant opportunities and challenges.

In the future, supported by national policies, technological progress, and expanding market demand, the industry will enter a new phase of development. To achieve higher-quality growth and maintain its leading position in global humanoid robotics, however, it must overcome several key challenges.

Opportunities for Development

China’s robot industry benefits from strong national policy support, which creates a favorable environment for growth.

The state has issued policies like the "Made in China 2025" plan and the "14th Five-Year Plan for the Development of the Robot Industry," which clarify development goals, increase investment in R&D, talent training, and market promotion, and provide robust policy backing.

In 2024, the State Administration for Market Regulation launched a special project to strengthen the quality chain, focusing on "Quality Improvement of Industrial Robot Complete Machines and Core Parts." By the end of 2025, the project had completed 33 key tasks, issued national standards for industrial robots and artificial intelligence, and provided testing services for over 150 robot enterprises—significantly improving the industrial chain’s quality.

The innovative "one inspection, two certificates" international cooperation mechanism has cut overseas market entry costs by 50% and shortened timelines by 40%, helping domestic brands like Unitree—WUBOT’s developer—expand globally more quickly.

Emerging technologies like artificial intelligence, big data, and the Internet of Things also provide strong technical support for the industry.

Integrating these technologies with robotics will drive robots toward greater intelligence, connectivity, and integration—equipping them with more powerful functions and broader applications, and laying the groundwork for upgrading WUBOT-like humanoid robots.

For example, combining artificial intelligence with robotics will enable robots to learn and make decisions independently, adapting to more complex environments. Integrating the Internet of Things will allow robots to connect and collaborate, boosting efficiency and coordination.

China’s large domestic market also offers ample room for growth. With a large population and expanding industrialization and urbanization, demand for robots in industry, services, and healthcare continues to rise—providing a strong driver for the industry.

Additionally, China’s complete industrial chain and industrial clusters support the mass production of humanoid robots like WUBOT.

Regions like the Yangtze River Delta and Pearl River Delta have formed globally influential industrial clusters. This "close-range collaboration" reduces manufacturing costs, shortens delivery times, and enhances customization capabilities and innovation speed.

China boasts the world’s most complete industrial system and richest application scenarios—providing fertile ground for robot development. Industrial robots are now used in 71 major categories of the national economy, and China’s manufacturing robot density ranks third globally.

Tested in real-world scenarios, Chinese industrial robots are both practical and cost-effective—giving them a natural edge in the global market.

Challenges to Overcome

Despite its progress, China’s robot industry still lags behind the world’s top level in some high-end core technologies—a key barrier to advancing humanoid robots like WUBOT.

While China has made breakthroughs in core components like precision reducers and servo systems, gaps remain in ultra-high-precision reducers and high-speed control algorithms. Domestic reducers also face ongoing improvements in mass production consistency.

In high-end humanoid robots, China still trails foreign competitors in intelligence and reliability—areas that require increased R&D investment to improve.

High costs and low profitability also hinder the large-scale adoption of humanoid robots like WUBOT.

Current high material costs lead to low return on investment (ROI), discouraging potential customers. For example, a 50-kilogram load robot consumes up to 2.3 kWh of energy during 4 hours of continuous operation, and battery energy density still needs improvement.

These high costs limit large-scale adoption and affect enterprise profitability and sustainable development.

A shortage of high-end talents also constrains the industry. Robotics is a high-tech field integrating mechanics, electronics, computer science, and artificial intelligence—requiring a large number of highly skilled talents, especially in humanoid robot core technology R&D.

Currently, China faces a severe shortage of high-end talents in robot core R&D and system integration—slowing technological innovation and industrial upgrading.

China also has limited influence in setting international robot standards—weakening the global impact of brands like Unitree, WUBOT’s developer.

Today, international robot standards are mainly set by developed countries like Japan and Germany, with China leading less than 5% of global standards.

This lack of influence not only hurts Chinese brands’ global reputation but also hinders the industry’s expansion in international markets.

Countermeasures for High-Quality Development

To seize opportunities and address challenges, China’s robot industry should take the following steps to promote high-quality development and strengthen its leading position in global humanoid robotics:

Increase R&D investment to tackle key technical challenges in high-end core technologies and enhance independent innovation capabilities;

Strengthen industrial chain construction to promote coordinated development between upstream and downstream enterprises, reducing production costs;

Expand talent training, establish a sound talent development system, and attract high-end talents from home and abroad to join the industry;

Actively participate in international standard-setting to enhance China’s influence in the global robot industry and promote domestic brands globally;

Expand application scenarios to deepen robot integration with various industries, unlocking the industry’s full market potential.

Conclusion: WUBOT Leads China's Humanoid Robot Industry to the World Stage

The 2026 Spring Festival Gala’s WUBOT program is more than a brilliant cultural performance—it is a powerful showcase of China’s robot industry achievements and the maturity of its humanoid robot technology.

The WUBOT robots’ flawless performance demonstrates to the world the rapid progress of China’s robot technology and the industry’s strong capabilities.

From importing foreign technology to pursuing independent R&D, from laboratory prototypes to large-scale industrial use, and from single-functional robots to intelligent collaborative systems, China’s robot industry has overcome great challenges to achieve remarkable success—emerging as an important force leading the global robot sector.

The industry’s development is crucial for upgrading China’s manufacturing sector, improving people’s living standards, and shaping the global robot industry landscape.

With national policy support, technological progress, and expanding market demand, China’s robot industry will overcome current challenges to achieve higher-quality development, making greater contributions to human society.

In the future, Chinese humanoid robots like WUBOT will enter more areas of work and life, bringing greater convenience and surprises to people and writing a new, brilliant chapter in global robot development.