Tiangeng Chen scite author profile

Tiangeng Chen

3Publications

1Citation Statement Received

56Citation Statements Given

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Capital University of Economics and Business

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A flexible ultra-highly sensitive capacitive pressure sensor for basketball motion monitoring

Gao

Chen

2023

Discover Nano

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Recently, flexible sensors with high sensitivity have been applied in wearable sports sensing field. Here, we reported a flexible and sensitive capacitive pressure sensor based on nylon textile and polyvinylidene fluoride (PVDF) dielectric film. From the experimental results, the sensor has an extremely high sensitivity of 33.5 kPa−1, a low detection limit of 0.84 Pa, a quick response time of 27 ms. Moreover, the pressure sensor shows excellent reliability under over 100,000 working cycles. With their superior overall performance, capacitive sensors have effectively proved their enormous potential for basketball motion monitoring. This research will promote the development of wearable sports sensors.

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A flexible ultra-highly sensitive capacitive pressure sensor for basketball motion monitoring

Gao

Chen

2022

Preprint

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Flexible sensors with high sensitivity, a low detection limit, an extensive working pressure range, and a rapid reaction have garnered considerable interest in recent years due to their critical role in developing wearable intelligent sports monitoring devices. In this work, we reported a flexible and sensitive capacitive pressure sensor by using flexible electrodes with nylon textile and an thin dielectric layer. The sensor comprises an upper nylon textile with electrode, an thin polyvinylidene fluoride (PVDF) dielectric layer in between, and a lower nylon textile with electrode. The sensor has an extremely high sensitivity of 33.5 kPa-1, a low detection limit of 0.84 Pa, a quick reaction time of 27 ms, and exceptional stability over 100,000 cycles. With their superior overall performance, capacitive sensors have effectively proved their enormous potential for basketball motion monitoring.

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Reflections of Functional Training on Shooters' Grip Stability

Chen

Yue

2023

Rev Bras Med Esporte

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Introduction: Shooting is a technical sport demanding much control and accuracy from the athletes. Physical fitness is a critical factor for the sport's skill level, and it is believed that functional training can effectively improve the shooter's technical level, ensuring greater athlete stability. Objective: Analyze the results of functional abdominal core physical training on the grip stability of sport shooters. Methods: Random sampling was used to select 26 volunteer shooters as research pairs. An intervention trial was conducted for eight weeks of functional physical training with these athletes. The subjective perception scale of RPE and the exercise intensity comparison table were used for analysis. Muscle contraction data were measured at 3 s before target shooting. SPSS 19.0 software was used to statistically conduct a t-test on the data collected before and after the experiment. Results: There were significant differences in muscle stability and tolerance before and after physical training (P<0.01). The shooter's flexion stability before the test was not as good as during relaxation. The reduced sustained distance before and after physical training significantly improved the tolerance and stability of the abdominal core muscles. The average amplitude of the biceps electromyography was statistically significant compared to before the test (P<0.05). Conclusion: After eight weeks of functional physical training, the shooting stability of pistol shooters was significantly improved. The lack of physical training, especially in the core abdominal muscles, negatively affects the shooters' stability, limiting the quality of the sport. Level of evidence II; Therapeutic studies - investigation of treatment outcomes.

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Tiangeng Chen

A flexible ultra-highly sensitive capacitive pressure sensor for basketball motion monitoring

A flexible ultra-highly sensitive capacitive pressure sensor for basketball motion monitoring

Reflections of Functional Training on Shooters' Grip Stability

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