Company Filing History:
Years Active: 1983
Title: Innovator Ikuo Iwamoto: Revolutionizing Data Transmission
Introduction: Ikuo Iwamoto, an accomplished inventor based in Kanagawa, Japan, has made significant contributions to the field of data transmission through his innovative work at Sony Corporation. With a focus on error-correctable data transmission methods, Iwamoto has leveraged his expertise to improve the reliability of digital communication systems.
Latest Patents: Ikuo Iwamoto holds a patent for an "Error Correctable Data Transmission Method." This invention employs a sophisticated encoding and decoding system designed for the efficient transmission and reception of digital data, showcasing a high error-correcting ability for both burst and random errors. The encoding process involves interleaving multiple word sequences into a different order and applying varying amounts of delay. By generating check words that satisfy a parity detection matrix, such as a Reed-Solomon code matrix, Iwamoto's patent enables enhanced error correction capabilities during data transmission.
Career Highlights: Throughout his career at Sony Corporation, Ikuo Iwamoto has focused on technological advancements that streamline digital communications. His innovative approach in developing data transmission methods has not only yielded a patent but has also demonstrated the potential to significantly reduce errors in digital data exchanges.
Collaborations: Iwamoto has collaborated with notable professionals in the field, including Kentaro Odaka and Yoichiro Sako. These collaborations have fostered a dynamic environment for innovation, contributing to the advancements in error correction and data transmission technologies.
Conclusion: Ikuo Iwamoto's work exemplifies the impact of innovative thinking in the realm of digital communications. His patent for an error-correctable data transmission method is a testament to the importance of reliability in data exchange systems, and his contributions at Sony Corporation pave the way for future advancements in this critical field.