On April 25th, the Beijing Municipal Science and Technology Commission and the Zhongguancun Management Committee successfully held the Zhongguancun International Technology Trade Fair and released the "Top 100 New Technologies and New Products" list. Four projects from the park enterprises, Dynaflow Technology's "Simulated Microgravity Device," Tonghu Tongxin Information Group's "High-speed Rail Complex Environment Abnormal Event Multi-modal Global Perception Key Technology," Tekco Technology's "Urban Tram Intelligent Driving Guidance and Command System," and Longze Medical's "Huaxing-I Type ECMO" were successfully selected, reflecting the technological leading advantage of Fengtai in high-end medical equipment, information security, intelligent manufacturing, and high-end equipment.
This year's list aims to showcase a batch of world-leading original creative technologies, promoting related results to market transformation and real production power, strengthening the construction effect of the international technology innovation center, and further improving the global tech trade ecosystem in Zhongguancun. Being selected for the list provides project showcase introductions, supply and demand matching, platform introductions, investment and financing matching, registration and landing, and science and technology policy consultation as auxiliary services.
This project utilizes digital control technology, achieving random changes in the direction of the gravitational vector in three-dimensional (3D) motion to make the object's gravity almost entirely counteract its inertia or centrifugal force, providing the object's acceleration required for motion entirely by gravity. This eliminates the impact of gravity and simulates microgravity experiments on the ground. In the motion track algorithm, the software simulates the motion track of the test sample and calculates the coverage rate of the motion track, while optimizing the theoretical rotation speed range. Considering the application requirements of scientific instruments from a functional design perspective, the product has already completed experiments matching multiple research fields and can adapt to changes in demand that may occur in the near and long term. This product has already cooperated with over 40 universities and research institutions, including silkworm breeding, soybean breeding, stem cell breeding, lipase hydrolysis of fats, yeast brewing for fermentation, suspension cell breeding, bone marrow cell breeding, protein induction, and more. Comparing the experimental results from normal gravity and microgravity environments, there are significant differences. Microgravity devices can be widely used in cell breeding and biological pharmaceutical research fields, as well as related experiments and research work.
This project integrates video analysis and radar monitoring using multiple modalities, innovatively combining target detection, semantic segmentation, and differential detection with multiple deep learning algorithms. It achieves depth alignment and fusion analysis of features in video images, video encoding, and radar echoes based on flexible projection and segmental encoding technologies. At the same time, it incorporates hardware acceleration, small sample training, and multi-dimensional stereo visualization engineering technologies to perform comprehensive perception, intelligent analysis, and real-time alerting for trains running normally and potential threats to road safety, such as intruders, equipment abnormalities, rockfalls, and mudslides. This effectively ensures the safety of rail transport operations. The system has been deployed and applied on multiple lines, including the Beijing-Zhangjiakou High-Speed Railway, the Beijing-Tianjin Intercity Railway, and the Beijing-Shanghai High-Speed Railway, as well as in the subway and intelligent city industries. It has driven innovation in
This project effectively solves the existing operational difficulties in information acquisition, situation awareness, auxiliary decision-making, and strategy execution, including incomplete and non-professional information acquisition, low coupling degree, weak collaboration between single lines, and lack of systematic support for emergency response, making dispatching and commanding difficult. The system overcomes key technologies such as automatic generation of operating diagrams based on transport capacity matching, generation of dispatching strategies for emergency scenarioses, dynamic adjustment of operating diagrams based on maximum transport capacity, and automatic compilation of dispatching commands based on scenarioses. The product is at the leading level in the industry in terms of product concept and functional design, especially in the field of rail transit dispatching control, achieving the first online real-time dynamic adjustment of urban rail transit operation plans in China. It has completed scenario tests such as switch failures, extended operations, and large passenger flows, and has been witnessed on site at Beijing Metro Line 19.
Dynaflow Technology's Dark Laboratory has developed the first domestically designed, produced, and tested "purely domestic" ECMO, which has complete independent intellectual property rights and overall performance and indicators reaching the level of international counterparts. This device is suitable for adult patients with acute respiratory failure, who have conditions that are difficult to control with other treatment methods and have a predictable course of worsening or death. The Chongqing Medical - Rising-I type equipment has excellent stability, using aerospace servo system motor control and drive technology to precisely control the speed, reducing the fluctuations in blood flow caused by changes in the body's blood load; high integration, with a total weight of approximately 7.5kg, which is half to one-third of the weight of foreign counterparts; easy operation, simple process, and all functional settings can be completed within two steps. As one of the five major scientific and technological achievements in the field of people's health, it was released at the Zhongguancun Forum in 2023 and included in the "Beijing Municipal First Set of Major Science and Technology Equipment Catalog," and selected as one of the "Ninth Batch of Excellent Domestic Medical Equipment Products" by the National Health and Family Planning Commission.
On April 25th, the Beijing Municipal Science and Technology Commission and the Zhongguancun Management Committee successfully held the Zhongguancun International Technology Trade Fair and released the "Top 100 New Technologies and New Products" list. Four projects from the park enterprises, Dynaflow Technology's "Simulated Microgravity Device," Tonghu Tongxin Information Group's "High-speed Rail Complex Environment Abnormal Event Multi-modal Global Perception Key Technology," Tekco Technology's "Urban Tram Intelligent Driving Guidance and Command System," and Longze Medical's "Huaxing-I Type ECMO" were successfully selected, reflecting the technological leading advantage of Fengtai in high-end medical equipment, information security, intelligent manufacturing, and high-end equipment.
This year's list aims to showcase a batch of world-leading original creative technologies, promoting related results to market transformation and real production power, strengthening the construction effect of the international technology innovation center, and further improving the global tech trade ecosystem in Zhongguancun. Being selected for the list provides project showcase introductions, supply and demand matching, platform introductions, investment and financing matching, registration and landing, and science and technology policy consultation as auxiliary services.
This project utilizes digital control technology, achieving random changes in the direction of the gravitational vector in three-dimensional (3D) motion to make the object's gravity almost entirely counteract its inertia or centrifugal force, providing the object's acceleration required for motion entirely by gravity. This eliminates the impact of gravity and simulates microgravity experiments on the ground. In the motion track algorithm, the software simulates the motion track of the test sample and calculates the coverage rate of the motion track, while optimizing the theoretical rotation speed range. Considering the application requirements of scientific instruments from a functional design perspective, the product has already completed experiments matching multiple research fields and can adapt to changes in demand that may occur in the near and long term. This product has already cooperated with over 40 universities and research institutions, including silkworm breeding, soybean breeding, stem cell breeding, lipase hydrolysis of fats, yeast brewing for fermentation, suspension cell breeding, bone marrow cell breeding, protein induction, and more. Comparing the experimental results from normal gravity and microgravity environments, there are significant differences. Microgravity devices can be widely used in cell breeding and biological pharmaceutical research fields, as well as related experiments and research work.
This project integrates video analysis and radar monitoring using multiple modalities, innovatively combining target detection, semantic segmentation, and differential detection with multiple deep learning algorithms. It achieves depth alignment and fusion analysis of features in video images, video encoding, and radar echoes based on flexible projection and segmental encoding technologies. At the same time, it incorporates hardware acceleration, small sample training, and multi-dimensional stereo visualization engineering technologies to perform comprehensive perception, intelligent analysis, and real-time alerting for trains running normally and potential threats to road safety, such as intruders, equipment abnormalities, rockfalls, and mudslides. This effectively ensures the safety of rail transport operations. The system has been deployed and applied on multiple lines, including the Beijing-Zhangjiakou High-Speed Railway, the Beijing-Tianjin Intercity Railway, and the Beijing-Shanghai High-Speed Railway, as well as in the subway and intelligent city industries. It has driven innovation in
This project effectively solves the existing operational difficulties in information acquisition, situation awareness, auxiliary decision-making, and strategy execution, including incomplete and non-professional information acquisition, low coupling degree, weak collaboration between single lines, and lack of systematic support for emergency response, making dispatching and commanding difficult. The system overcomes key technologies such as automatic generation of operating diagrams based on transport capacity matching, generation of dispatching strategies for emergency scenarioses, dynamic adjustment of operating diagrams based on maximum transport capacity, and automatic compilation of dispatching commands based on scenarioses. The product is at the leading level in the industry in terms of product concept and functional design, especially in the field of rail transit dispatching control, achieving the first online real-time dynamic adjustment of urban rail transit operation plans in China. It has completed scenario tests such as switch failures, extended operations, and large passenger flows, and has been witnessed on site at Beijing Metro Line 19.
Dynaflow Technology's Dark Laboratory has developed the first domestically designed, produced, and tested "purely domestic" ECMO, which has complete independent intellectual property rights and overall performance and indicators reaching the level of international counterparts. This device is suitable for adult patients with acute respiratory failure, who have conditions that are difficult to control with other treatment methods and have a predictable course of worsening or death. The Chongqing Medical - Rising-I type equipment has excellent stability, using aerospace servo system motor control and drive technology to precisely control the speed, reducing the fluctuations in blood flow caused by changes in the body's blood load; high integration, with a total weight of approximately 7.5kg, which is half to one-third of the weight of foreign counterparts; easy operation, simple process, and all functional settings can be completed within two steps. As one of the five major scientific and technological achievements in the field of people's health, it was released at the Zhongguancun Forum in 2023 and included in the "Beijing Municipal First Set of Major Science and Technology Equipment Catalog," and selected as one of the "Ninth Batch of Excellent Domestic Medical Equipment Products" by the National Health and Family Planning Commission.
