Company Filing History:
Years Active: 1982
Title: Kenji Nanba: Innovator in Digital Signal Transmission
Introduction
Kenji Nanba is a prominent inventor based in Kanagawa, Japan. He has made significant contributions to the field of digital signal transmission, showcasing his expertise through innovative patents. His work is particularly notable for its application in enhancing the reliability of digital communications.
Latest Patents
One of Kenji Nanba's key patents is a digital signal transmission system with encoding and decoding sections. This system is designed to transmit interleaved sequences of digital words across multiple channels. The process involves adding the words in each sequence bit-by-bit using a modulo-two adder to generate a first parity signal. Selected sequences of digital words are assigned different delay times, and both the sequences and the first parity signal are combined in a second modulo-two adder to create a second parity signal. This innovative system is capable of correcting burst errors that may occur in more than three successive digital words, making it a valuable advancement in digital communication technology. Kenji holds 1 patent for this invention.
Career Highlights
Kenji Nanba is currently employed at Sony Corporation, a leading company in the electronics industry. His role at Sony has allowed him to work on cutting-edge technologies that push the boundaries of digital communication. His contributions have been instrumental in developing systems that enhance the quality and reliability of digital signal transmission.
Collaborations
Throughout his career, Kenji has collaborated with notable colleagues, including Toshitada Doi and Shunsuke Furukawa. These collaborations have fostered an environment of innovation and creativity, leading to advancements in their respective fields.
Conclusion
Kenji Nanba's work in digital signal transmission exemplifies the impact of innovative thinking in technology. His contributions continue to influence the way digital communications are conducted, ensuring greater reliability and efficiency.