Company Filing History:
Years Active: 2018
Title: Tzung-Min Tsai: Innovator in Exercise Physiological Sensing Systems
Introduction
Tzung-Min Tsai is a notable inventor based in Changhua County, Taiwan. He has made significant contributions to the field of exercise physiological sensing systems, focusing on improving the stability and accuracy of physiological signals during physical activity. With a total of 2 patents, Tsai's work is paving the way for advancements in health monitoring technologies.
Latest Patents
Tzung-Min Tsai's latest patents include an exercise physiological sensing system and a motion artifact suppression processing method and device. These innovations are designed to obtain a stable exercise heart rate signal from users during exercise. The exercise physiological sensing system comprises a bone conduction body, a signal-to-noise ratio analysis module, and a computation module. The bone conduction body is equipped with a physiological sensor that detects physiological signals from the user. The signal-to-noise ratio analysis module assesses the quality stability of these signals, while the computation module generates a stable exercise heart rate signal based on the detected physiological data. This system effectively enhances the stability of physiological signals during exercise, making it a valuable tool for fitness and health monitoring.
Career Highlights
Tzung-Min Tsai is affiliated with the Industrial Technology Research Institute, where he continues to innovate and develop new technologies. His work is instrumental in advancing the field of exercise physiology and health monitoring.
Collaborations
Tsai collaborates with esteemed colleagues, including Hsing-Chen Lin and Shuenn-Yuh Lee, to further enhance the capabilities of his inventions and contribute to the research community.
Conclusion
Tzung-Min Tsai's contributions to exercise physiological sensing systems demonstrate his commitment to improving health monitoring technologies. His innovative patents are set to make a significant impact in the field of exercise physiology.