Company Filing History:
Years Active: 2008-2016
Title: Scott Riffe: Innovator in Communication Technology
Introduction
Scott Riffe is a notable inventor based in Bellevue, WA (US), recognized for his contributions to communication technology. He holds a total of 6 patents, showcasing his innovative approach to solving complex problems in the field.
Latest Patents
One of Scott Riffe's latest patents is titled "Optimizing Call Bearer Path Using Session Initiation Protocol Proxy." This system involves a serving device that receives a first message from a gateway device connected to a communication network. The first message includes a session descriptor protocol related to a port of the network, which connects to the equipment of a first subscriber. This setup allows the first subscriber to originate a call to a mobile communication device of a second subscriber. The serving device and the gateway device act as nodes on a signaling path for the call. The serving device then sends a second message to the gateway device, which includes a second session descriptor protocol for delivery to the network. This process facilitates a bearer path between the network and the serving device, ensuring that the gateway device is not a node of the bearer path. Other embodiments of this invention are also disclosed.
Career Highlights
Scott Riffe has worked with prominent companies in the telecommunications sector, including AT&T Mobility LLC and AT&T Intellectual Property I, L.P. His experience in these organizations has significantly contributed to his expertise and innovative capabilities in communication technologies.
Collaborations
Throughout his career, Scott has collaborated with talented individuals such as Steven I. Carlson and Julie Sara Fowler. These partnerships have likely enriched his work and led to the development of impactful technologies.
Conclusion
Scott Riffe's innovative contributions to communication technology, particularly through his patents, highlight his role as a significant inventor in the field. His work continues to influence advancements in telecommunications.