For its first decade in the area of intelligent wear, China has been able to build a relatively leading system of sports and health research that provides consumers with a more comprehensive and accurate use experience of smart wear.
On October 26, China was opened to the media for the first time to the largest physical health science laboratory in Europe (Finland), the third health science laboratory to be established worldwide and the first such laboratory to be established overseas.
[size = 4] China is the first physical health science laboratory overseas, why Finland? [/ size]
Previously, China had established a sports and health science laboratory in Lake Dong Zhongshan and in Sian, whose functions were mainly to build a national sports industry base and an intelligent sports demonstration area, led by research and standard research, testing and certification of industrial incubators. The strong entry of China into the Finnish Sports Science Laboratory will further help China to build an international-class platform for scientific, technological and innovation in the health sector.
In addition to considerations based on a global perspective, China ' s first Sporting Health Science Laboratory, established abroad, is more focused on sports health niches in Finland, based on special and indigenous sports culture considerations based on local environmental conditions.
It is worth mentioning that China's self-study TriSportTM system of scientific movements was born at the Helsinki Institute in Finland and is constantly optimizing it in the Finnish Sports Health Laboratory.
Long running is one of Finland's traditional sports and has a long history, with many high-quality running events taking place in Finland. The largest long run in Finland is attended by more than 10,000 people each year, and thousands of runners enter Finland. For the Finnish population, running is also one of their many favorites.
Having people in Finland fall in love with running is an important environmental factor, including fresh air, a long summer, and a beautiful natural wind and a suitable running route, which is also an important reason for attracting high-quality events to the competition.
For China's sports wear, many long run events in Finland provide a large amount of available and effective data, with applied adjustments tailored to the needs of the runners, targeted testing and, ultimately, the definition of monitoring algorithms for scientific campaigns.
With regard to the running environment, the self-researched TrusportTM scientific movement system can decrypt the seven main sports indicators of maximum oxygen intake, calorie, aerobic (aerobic) training pressure, training load, recovery time, performance prediction and real-time performance in human motion.
In other words, this system allows users to quantify the individual's level and state of competence as they run, and also provides individualized training advice and training programmes based on the recording and analysis of training data. It helps to improve physical and training performance and provides a complete set of "screech solutions for running people's physical algorithms".
Runners have said to Avner that the TruSportTM on China's smart watch allows him to know his state clearly, to set for himself the right amount of training and to set the right time for recovery, and, most importantly, to achieve long-term monitoring in the course of cyclical training.
At the Finnish Sports Science Laboratory in China, there is a very large professional “runner” with a speed of up to 50 km/h, a slope of up to 14 degrees, capable of importing various topographic templates, such as mountains, plains and hills, and of restoring them at speeds, as well as conducting a variety of sports experiments, such as bicycles, sliders, skateboards, wheelchairs, to measure the heat consumption, motor strength and physical performance of different movements in all circumstances.
According to the staff member, the Finnish research team conducts an average of 1,400 hours of exercise experiments in this area per year, using eight measurements to translate the algorithmic structure of key movement performance indicators, such as energy consumption, motor strength and so forth, thus driving the TrusportTM system forward.
There is also a three-dimensional pressure-step instrument in the laboratory to detect indicators such as step-state parameters, foot bottom pressure distribution, balancing parameters, which are important for running position studies, prevention of potential motor damage and rehabilitation studies.
Researchers are currently continuing to conduct programme studies based on S-TAG's right- and right-leg balance, right- and right-foot impact detection studies, static balance testing, and lower limbs and spinal, pelvis-based pelvis-based pelvis studies, in the hope of lifting the running posture more accurately.
Beyond the run-off, which originated in Scandinavian skiing, it is also a popular European sport. According to data from the Finnish Tourist Board, Finland not only owns 188,000 lakes of large and small size, but also has thousands of kilometres of ski lanes per winter.
Photo by Finnish National Tourist Board
The age-old tradition of skiing in Finland ' s off-roads is partly due to the ease and low budget which makes young people in the city very fond of the campaign and attract tourists from abroad. For the Finnish population, skiing is an alternative to jogging and is an ideal winter sports project.
In order to make the ski mode on smart watches more professional, China has established a large ski simulator for the Finnish Sports Health Science Laboratory, which regulates the height and speed of ski slopes, supports single- and double-board skiing, imitates snow friction, and enables indoor ski research and data collection.
In addition to bringing together the best equipment in the sports physiology research industry, in order to bring together European health professionals and research resources, China has engaged in in-depth cooperation with the leading European sports research institutes and institutions, such as the University of Sport in Cologne, Germany, the Finnish Olympic Research Centre and others, in relevant fields, such as sports science and testing standards, to continuously enhance the scientific and professional nature of experimental research.
At present, the Finnish Sports Health Science Laboratory is a grouping of six doctors and 20 experts from seven EU countries in the five main fields of physiology, artificial intelligence, machine learning, software testing, software engineering, and a complex scientific team with end-to-end research capability to help each sport health study meet world-class experimental standards.
In order to make the monitoring of the data more accurate, China selects the testees for the Finnish Sports Laboratory on very strict criteria, and the testees undergo a lot of training before testing to ensure the security of the test and the accuracy of the data. At the same time, the laboratory has collected samples of data covering the general public and professional athletes, including even members of the Finnish National Team for the Olympic Games, and the research team has continuously increased the level of accuracy by conducting long-term research into the training, diet and physical change data of these professional athletes, in order to meet the needs of the experience from "white" to professional athletes.
According to the staff member, for the future of the Finnish research team, China also plans to provide more scientific and technical empowerment for skiing by carrying out algorithms such as calibration of knee curvatures, fall predictions, motor deformation (ski rectification), etc., in a manner similar to running.
In addition to day-to-day precision sports records and monitoring, China hopes that smart wear products will be applied to more demanding use scenarios. At present, China ' s smart watches have overcome the performance and discharge challenges of low temperatures, high humidity environments, and are expected to introduce fall predictions in the future.
Zhang Zhang, CEO of the Sports Corps CEO, and Zhang Zhang Zhu, President of the Terminal BG Smart Clothes and Sport Health Products Line, said:
Consumers are increasingly pursuing the motor health of smart wearing equipment
We firmly believe that an open platform centred on technology can bring together industries and institutions to create infinite possibilities.
While a growing number of smart equipment manufacturers are beginning to make smart watches, the smart watches category has finally found its most appropriate place — physical health — after many years of crawling around.
In contrast to the once volatile industry, China established a core technical direction for motor health monitoring at the outset of its entry into the field of intelligent wearing.
After all, smart watches and smart bracelets are currently rare and can be relied upon for long periods of time by intelligent devices attached to the human body. And it's in the form of being designed for our wrists, relying on the blood vessels covered by the wrists, and on neurons signals, and the various sensors on the watch can easily get accurate and rich data, which are not available for other devices such as mobile phones.
So, the vision of motor health that smart wears is really not genre, it is essentially an opportunity for users to “quantify themselves”.
With the growing number of sensors that can be carried with the equipment on their wrists and the increasing sophistication of motor health testing algorithms, the amount of health data available to them will become more and more available, and the addition of data dimensions will give us a more intuitive view of an accurate physical state.
Moreover, the increase in frequency based on real-time monitoring and the gradual shift from a user-driven approach to passive acceptance of a state of physical health monitoring can also meet our urgent need for long-term health management.
In order to continue the field of deep-farming, China is in the process of establishing a number of sports and health science institutes to integrate the health-related strengths of sport around the world, to continuously improve the experience of wearing equipment and to achieve more innovative functions in small equipment on the wrist.
In the three years since it was launched, China has also been able to complete a continuous process of enrichment and evolution, with the newest generation of China's WATCH GT4, with the addition of caged tennis, electric competition, football, basketball and four sports models, as well as the vertical upgrading of calorie, VO2Max tests, and the quantification of indicators by wrist.
In addition, China's life-muturing technology for TruSeenTM has been upgraded over eight five generations, from reading every heartbeat to the assessment of blood sugar, breathing, vascular health, etc. 45 health `ciphers' have been opened, increasing the value of intelligently worn products to users many times.
In terms of intelligent clothing, China has grown from being a leading entryist to an industry leader. China will build a moat of technology through sustained investment in the area of sport health, building on the strong scientific power around the globe, and bringing more accurate and comprehensive sport health technologies to users.