Company Filing History:
Years Active: 2001-2003
Title: Mark Bridger: Innovator in Telecommunications
Introduction
Mark Bridger is a notable inventor based in Hertford Heath, GB. He has made significant contributions to the field of telecommunications, particularly in the area of digital subscriber line (DSL) technology. With a total of 3 patents to his name, Bridger's work has focused on enhancing voice services during power failures.
Latest Patents
One of Bridger's latest patents is titled "Continuity of voice carried over DSL during power failure." This innovation involves a digital subscriber loop modem arrangement that responds to fault conditions, ensuring a voice lifeline service over DSL. The system reduces the number of carriers during a power loss, allowing for the continued transmission of voice traffic while minimizing power demand. Another significant patent is "Voice over digital subscriber line call redirection for lifeline service." This invention enables customer premises equipment to provide a lifeline voice service during power failures, directing incoming calls to a selected port to maintain communication.
Career Highlights
Mark Bridger is associated with Nortel Networks Corporation, a leading company in telecommunications. His work at Nortel has allowed him to develop innovative solutions that address critical issues in voice communication technology. Bridger's expertise in DSL technology has positioned him as a key figure in the industry.
Collaborations
Throughout his career, Bridger has collaborated with notable colleagues, including Christopher Neville Tate and Roger J Williamson. These partnerships have contributed to the advancement of telecommunications technologies and have fostered a collaborative environment for innovation.
Conclusion
Mark Bridger's contributions to telecommunications, particularly in DSL technology, have made a lasting impact on the industry. His innovative patents demonstrate his commitment to improving voice communication services, especially during critical situations. Bridger's work continues to influence the field and inspire future advancements.