Company Filing History:
Years Active: 1993-1994
Title: Innovations by Patrick D. Daley
Introduction
Patrick D. Daley is an accomplished inventor based in Belmont, CA (US). He has made significant contributions to the field of telecommunications, particularly in congestion control for cell networks. With a total of 2 patents, Daley's work has had a notable impact on how data is managed in communication networks.
Latest Patents
Daley's latest patents include a system for congestion control in cell networks. This feedback control system is designed to prevent congestion in packet switching communication networks. It effectively manages the transmission rate of bursty traffic while accommodating various types of data, including voice and multicast data. By monitoring buffer queue lengths at network nodes, the system generates control signals that indicate congestion levels. This allows for efficient regulation of bursty data transmission, minimizing data loss and optimizing network bandwidth.
Another significant patent involves a method for fair queuing and servicing of cell traffic in telecommunication nodes. This method organizes traffic based on a hopcount, which represents the number of nodes traversed by each cell. By servicing cells according to their hopcount, the system ensures fair treatment of traffic, enhancing overall network performance.
Career Highlights
Daley has worked at Stratacom, Inc., where he has been instrumental in developing innovative solutions for telecommunications. His expertise in managing data traffic has positioned him as a key figure in the industry.
Collaborations
Throughout his career, Daley has collaborated with notable colleagues, including Lionel A. Bustini and Charles Matthew Corbalis. These partnerships have contributed to the advancement of telecommunications technologies.
Conclusion
Patrick D. Daley's contributions to telecommunications through his patents and innovative methods have significantly improved data management in communication networks. His work continues to influence the industry and enhance the efficiency of cell networks.