Company Filing History:
Years Active: 2004-2006
Title: David T. Clapp: Innovator in Loopback Processing Technology
Introduction
David T. Clapp is a notable inventor based in Borrego Springs, California. He has made significant contributions to the field of network technology, particularly in loopback processing methods. With a total of 2 patents to his name, Clapp continues to push the boundaries of innovation in his field.
Latest Patents
One of Clapp's latest patents is focused on a loopback processing method and apparatus. This method involves detecting a loopback at a first entity within a wide area network. The detection is achieved by recognizing that a "memorized" frame has returned on the same communications interface within a specified time frame. The time interval between sending the frame and detecting its return can be recorded and communicated to an operator, providing valuable information regarding the loopback's location in the network. The process includes sending a loopback detect sequence from the first entity to a second entity, allowing both to receive the sequence. This innovation enhances the efficiency of network operations by allowing entities to stop using the link for real data during the detection process.
Career Highlights
David T. Clapp is currently employed at Qualcomm Incorporated, a leading company in wireless technology and telecommunications. His work at Qualcomm has allowed him to develop and refine his innovative ideas, contributing to advancements in network technology.
Collaborations
Clapp has collaborated with notable coworkers such as Todd Robert Sutton and Houtan Dehesh. These collaborations have likely fostered an environment of creativity and innovation, further enhancing the impact of their collective work.
Conclusion
David T. Clapp is a distinguished inventor whose work in loopback processing technology has made a significant impact in the field of network communications. His contributions continue to shape the future of technology, demonstrating the importance of innovation in our increasingly connected world.