Company Filing History:
Years Active: 2020
Title: **Jae Hyeong Lee: Innovator in Vehicle Acoustic Analysis**
Introduction
Jae Hyeong Lee is an accomplished inventor based in Chilgok-gun, South Korea. He has made significant contributions to the field of vehicle speed estimation through innovative applications of acoustic analysis. With one patent to his name, Lee's work stands out in the realm of automotive technology and forensic science.
Latest Patents
Jae Hyeong Lee holds a patent for a groundbreaking method, apparatus, and computer program that estimates the speed of a vehicle passing over a horizontally grooved road using acoustic analysis. This patent details a sophisticated approach that involves obtaining time domain acoustic data from an acoustic storage apparatus as the vehicle traverses the grooved surface. By employing Fourier transformation to calculate frequency domain acoustic data, the method determines the resonance frequency of sound generated between the vehicle's tires and the road's groovings. Ultimately, it estimates the vehicle's speed by multiplying the resonance frequency by the interval of the horizontal groovings.
Career Highlights
Currently, Jae Hyeong Lee serves as the Director at the National Forensic Service within the Ministry of Public Administration and Security in South Korea. In this capacity, he plays a vital role in advancing forensic methodologies that enhance vehicle accident investigations and traffic safety measures.
Collaborations
Throughout his career, Lee has collaborated with esteemed colleagues, including Young Nae Lee and Nam Kyu Park, who have supported his research efforts. Their collective expertise contributes to the innovative pursuit of solutions in forensic acoustics.
Conclusion
Jae Hyeong Lee exemplifies the spirit of innovation through his contributions to vehicle speed estimation technologies. His patented methods not only enhance forensic analysis but also pave the way for advancements in automotive safety. With a focus on practical application and collaboration, Lee continues to impact the field significantly.