Company Filing History:
Years Active: 2021
Title: **Seokhwan Jo: Innovator in Image and Audio Processing**
Introduction
Seokhwan Jo is a notable inventor based in Suwon-si, South Korea. With a keen interest in technology, particularly in the fields of image and audio, he has contributed to advancements that enhance multimedia experiences. His innovative work is showcased through his patent in audio-visual processing, demonstrating his expertise and dedication to improving technology.
Latest Patents
Seokhwan Jo holds one patent titled "Image and audio processing apparatus and operating method of the same." This invention features an apparatus capable of dynamically controlling image and audio signals of content. The apparatus includes a processor designed to detect characteristic information from both image and audio signals by analyzing them in content units. This innovation allows for the output of synchronized and improved audio-visual experiences by controlling signals effectively based on their characteristics.
Career Highlights
Seokhwan Jo is currently employed by Samsung Electronics Co., Ltd., a leading global company known for its contributions to technology and electronics. His position within such a prestigious organization exemplifies his expertise and commitment to driving innovation. Through his role, he continues to push the boundaries of what's possible in multimedia technology.
Collaborations
Throughout his career, Seokhwan Jo has collaborated with talented colleagues, including Sunmin Kim and Inwoo Hwang. Working alongside other skilled professionals, he has contributed to significant technological developments, further enhancing the capabilities of audio and image processing.
Conclusion
In summary, Seokhwan Jo stands out as an inventor through his patent and contributions to Samsung Electronics Co., Ltd. His work in the dynamic control of image and audio signals highlights his innovative spirit and dedication to advancing technology. As he continues to evolve in his career, his impact on the field of multimedia processing remains significant.