With the continuous advancement of artificial intelligence technology and the rapid growth of market demand, the robotics industry is embracing unprecedented development opportunities. However, in the R&D process, the motion stability, action precision, and flexible operability in complex environments of robots have always been difficult pain points for the industry to overcome. From June 20th to 22nd, the 2025 Hangzhou International Humanoid Robot and Robot Technology Exhibition was grandly held at the Hangzhou Grand Exhibition Center.
CHINGMU, together with industry partners such as the Hangzhou Haichuang Humanoid Robot Innovation Center and Zhejiang Zheneng Digital Technology, made a wonderful appearance, jointly showcasing cutting-edge technological achievements in the field of robotics and providing new ideas for enterprises to solve robot R&D problems.
As the first professional exhibition for the entire humanoid robot industry chain in China, CHINGMU's optical motion capture solution in the robotics field became the center of heated discussion at the show upon its debut. With innovative technical strength and industry foresight, CHINGMU has broken through the R&D bottlenecks in the traditional robotics field, providing efficient and high-precision motion capture technology and data support for robot R&D. This attracted numerous media and industry experts to stop and exchange ideas, and drew the attention of Zhejiang TV News Channel, further igniting a wave of discussions in the industry about technological innovation in robot R&D.
Fu Changqing, Pre-sales Director of CHINGMU, was interviewed by the News Channel of Zhejiang Television.
At the exhibition site, a piano duet by motion capture performers and the music-playing robot from Haichuang Humanoid Robot Innovation Center became the focus. In the process of robots learning complex movements and adapting to different scenarios, rich and precise data are crucial.
Relying on high-precision motion capture systems and high-fidelity optical finger tracking technology, CHINGMU captures multimodal data such as 6DOF kinematics, tactile, and visual data for robots, and refines the capture to fine parts like fingers. It conducts dynamic analysis of each finger joint with millimeter-level data accuracy, easily addressing finger capture needs in various complex environments. This helps R&D teams build a rich human motion expression database, providing comprehensive and real data samples for diversified scenarios such as dexterous hand control research and robot intelligent training. As a result, it enhances robots' motion performance to be closer to human performance, completely transforming the inefficient R&D model where traditional robots rely on algorithm iteration.
CHINGMU & Hangzhou Haichuang Humanoid Robot Innovation Center - Optical Finger Tracking Technology Demonstration
In the process of robot R&D, different research directions and application scenarios impose differentiated requirements on motion data collection. From the fine-grained grasping of dexterous hands to the complex operations of mechanical arms and the algorithm optimization of bionic robots, a single standardized motion capture model struggles to meet diversified research needs.
By leveraging the customizable marker placement of CHINGMU's motion capture system, R&D teams can flexibly configure the skeletal structure according to requirements. Moreover, the system conducts real-time analysis of the robot's captured movements, accurately acquiring a series of data related to its motion state and generating comprehensive performance detection reports for reference. These reports help R&D teams gain in-depth insights into the robot's performance in various movements and optimize the robot accordingly, enabling the robot to achieve precise self-perception and execute tasks more accurately and efficiently.
CHINGMU Custom Skeletal Motion Capture Demonstration
CHINGMU & Unitree Robotics: Robot Training Data Capture
At the technical demonstration area, the intelligent operation scenarios displayed by the cruising robot of Zhejiang Zheneng Digital Technology were equally remarkable. Its precise movement along the preset trajectory and dynamic obstacle avoidance performance are typical application scenarios of CHINGMU's optical motion capture technology in the robotics field. By constructing a positioning matrix with multiple high-precision motion capture cameras, the system can output the robot's spatial coordinate data in real time, which not only provides accurate positioning references for the robot's navigation algorithm, but also helps R&D teams carry out application requirements such as attitude evaluation, obstacle avoidance testing, algorithm verification, and collaborative control in scenarios of unmanned systems, bionic robots, and mechanical arms.
Currently, CHINGMU has supported the floor-cleaning robot measurement experiments at the Xiangcheng Institute of Robotics and Intelligent Equipment, Soochow University; the algorithm research on dual quadrotor cooperative transportation systems at Shanghai University; the AGV cooperative cart experiment research at Xi'an Jiaotong University; and the anti-interference algorithm verification research for wheeled robots at Southeast University. It continues to provide core data support for basic research and technological innovation in the robotics field. Meanwhile, in collaboration with scientific research institutions like Honor and Humanoid Robot (Shanghai) Co., Ltd., as well as renowned domestic enterprises, CHINGMU is engaged in embodied intelligence performance evaluation, dexterous hand research, and the construction of training data factories, continuously promoting the deep integration and collaborative development of the industry-university-research-application ecosystem.
In the surging tide of the booming robotics industry, CHINGMU is not only a provider of related technologies but also an ecosystem builder for the robotics industry. We are acutely aware that every precise capture of data carries unlimited possibilities for scientific research and industrial innovation.
Although this exhibition has concluded, CHINGMU's exploration in the robotics field never stops. In the future, CHINGMU will continue to refine products with a rigorous scientific attitude, embrace innovation with an open collaborative approach, continuously improve technical precision and innovativeness, join hands with more industry partners to push the robotics industry toward higher levels, and enable intelligent technology to better serve human society.