Company Filing History:
Years Active: 2019-2021
Title: Innovations by Inventor Sung Jae Chang
Introduction
Sung Jae Chang is an accomplished inventor based in Toronto, Canada, recognized for his contributions to the field of human locomotion and cycling control technologies. With a notable portfolio featuring three patents, his work strives to enhance the functionality and safety of cycling and human movement.
Latest Patents
Sung Jae Chang holds two significant patents focused on the automatic control of cycling speed in humans. The first patent, titled "Methods and systems for control of human cycling speed," outlines a method that utilizes sensors to estimate a subject's actual cycling speed. This method determines the difference between the desired and measured speeds, outputting a stimulus frequency signal to assist the rider in maintaining the desired speed effectively. Similarly, the second patent, "Methods and systems for control of human locomotion," employs comparable techniques to improve locomotion control, enhancing overall movement ease and safety.
Career Highlights
Sung Jae Chang's innovative endeavors are not only notable for their technical sophistication but also for their practical applications in promoting physical activity. His efforts at Simon Fraser University have been pivotal in advancing research in this integral area of human motion, showcasing his dedication to improving the cycling experience.
Collaborations
Throughout his career, Sung Jae Chang has collaborated with esteemed colleagues such as Mark Snaterse and James Maxwell Donelan. These collaborations have fostered a creative environment conducive to innovation and exploration in the fields of human movement and cycling technology.
Conclusion
Sung Jae Chang exemplifies the spirit of innovation in the realm of human locomotion. His patented methods and systems not only contribute to the scientific community but also offer practical solutions for enhancing the cycling experience. As his work continues to evolve, it holds the promise of further advancements in understanding and controlling human physical activity.