Company Filing History:
Years Active: 2005
Title: **Meizhong Wang: Innovator in Voice Signal Improvement**
Introduction
Meizhong Wang is an esteemed inventor based in Tokyo, Japan, recognized for his contributions to the field of voice signal processing. With two patents to his name, Wang has made significant advancements aimed at enhancing audio quality in communications.
Latest Patents
Wang's latest patents revolve around a device designed to improve the quality of voice signals. One of his inventions features a mechanism that discriminates the radio environment of a signal transmission path and detects unwanted click noise. This device calculates the average value for short intervals of a received Adaptive Differential Pulse Code Modulation (ADPCM) code. By doing so, it identifies the characteristics of the radio environment and determines when click noise occurs, particularly when the average value surpasses a designated threshold.
His second patent also emphasizes improving voice signal quality through a code correction circuit. This circuit presumes an error pattern of the received code when click noise is detected and corrects the errors to minimize fluctuations in the short interval average value of the absolute value of the received ADPCM code.
Career Highlights
Meizhong Wang is affiliated with Uniden Corporation, a company well-regarded for its innovations in telecommunications and audio solutions. Throughout his career, Wang has focused on developing advanced technologies that aim to refine the clarity and reliability of voice communication.
Collaborations
At Uniden Corporation, Wang collaborates with talented colleagues such as Masato Tanaka and Kazuhiko Seki. Together, they work on pioneering projects that leverage their combined expertise to drive innovation in voice signal processing.
Conclusion
Meizhong Wang continues to lead advancements in the field of voice signal improvement. His inventive spirit and dedication to enhancing communication technologies make him a notable figure in the realm of telecommunications. As his work progresses, it is anticipated that his contributions will further revolutionize how audio quality is perceived in various applications.