Company Filing History:
Years Active: 1998
Title: The Innovative Mind of James M. Underwood
Introduction
James M. Underwood, an inventive mind hailing from Newbury Park, CA, holds a unique patent that showcases his contributions to the field of audio and facsimile messaging. With a background that aligns with technological advancements, Underwood's work has paved the way for more efficient communication systems.
Latest Patents
Underwood is credited with a patent titled "Method and apparatus for reliable access to audio and facsimile message." This innovative invention provides a reliable means of storage and retrieval for audio and facsimile messages. The system incorporates a distinctive listening procedure to differentiate between voice message clients and fax clients. Upon detection of a fax client, it implements an extended listening procedure to further distinguish between sending and retrieving fax clients. This inventive approach integrates a ring tone that mimics a typical call duration, which makes the listening process transparent for human callers.
Career Highlights
James M. Underwood has made his mark in the technology sector through his work at Digital Sound Corporation. His contributions extend beyond just his own invention, enriching the company's offerings with his expertise. His innovative spirit continues to drive advancements in communication technology.
Collaborations
During his career, Underwood has worked closely with Nam H. Pham at Digital Sound Corporation. This collaboration highlights the importance of teamwork in innovation, as both individuals bring their unique skills and perspectives to the table, fostering a creative environment that produces groundbreaking inventions.
Conclusion
In summary, James M. Underwood stands as a notable inventor whose work in the field of audio and facsimile messaging has led to significant advancements. His dedication to enhancing communication technology through innovation exemplifies the impact that one inventor can have on the industry. As technology continues to evolve, Underwood's contributions will undoubtedly remain influential in shaping future developments.