Company Filing History:
Years Active: 2015-2021
Title: The Innovative Contributions of Mingqing Hu
Introduction
Mingqing Hu is a prominent inventor based in Beijing, China. He has made significant contributions to the field of audio processing, holding a total of 13 patents. His work focuses on enhancing multimedia experiences through innovative technologies.
Latest Patents
One of Mingqing Hu's latest patents is titled "Audio source separation with source direction determination based on iterative weighting." This invention relates to a method of separating audio sources in audio content, which includes multiple channels. The method involves obtaining data samples from various time-frequency tiles of the audio content and analyzing these samples to generate multiple components through several iterations. Each component indicates a direction with a variance of the data samples, allowing for effective audio source separation. Another notable patent is "Perception based multimedia processing," which provides a method for processing multimedia data by automatically determining user perception on segments of the data based on predefined clusters. This innovative approach enhances the processing of multimedia content based on user experience.
Career Highlights
Mingqing Hu is currently employed at Dolby Laboratories Licensing Corporation, a leading company in audio technology. His work at Dolby has allowed him to push the boundaries of audio processing and multimedia technology, contributing to advancements that benefit users worldwide.
Collaborations
Mingqing Hu has collaborated with notable colleagues, including Lie Lu and Ming Wang. These collaborations have fostered a creative environment that encourages innovation and the development of cutting-edge technologies.
Conclusion
Mingqing Hu's contributions to audio processing and multimedia technology are noteworthy. His innovative patents and work at Dolby Laboratories Licensing Corporation highlight his commitment to enhancing user experiences through technology. His ongoing efforts continue to shape the future of audio and multimedia processing.