Company Filing History:
Years Active: 2009-2015
Title: **The Innovative Contributions of Mark Conner**
Introduction
Mark Conner is an accomplished inventor based in Boulder Creek, California, with a remarkable portfolio of four patented inventions. His innovations have significantly impacted the field of telecommunications, particularly in the realm of media communication between different endpoint devices.
Latest Patents
Among his notable contributions is his latest patent focused on the interworking between H.320/H.324 and SIP (Session Initiation Protocol). This patent discloses a method, apparatus, and system that enhance the communication capabilities between H.320 or H.324 standards and SIP. The core of the invention involves receiving a SIP message that indicates the capabilities supported by a first endpoint device and strategically deferring the response to that message. It further outlines the process of receiving an H.320 or H.324 message from a second endpoint device, which also signifies its supported capabilities. This innovative approach allows for the establishment of a media communication channel between the two devices, based on their respective capabilities.
Career Highlights
Mark Conner's career is deeply intertwined with his role at Cisco Technology, Inc., where he continues to push the boundaries of modern telecommunications. His expertise in the field has not only garnered him multiple patents but has also positioned him as an essential contributor to technological advancements within the company.
Collaborations
In his innovative journey, Mark has collaborated with talented individuals such as Sabita Jasty and Yu Zhang. Together, they have worked on various projects that leverage their collective expertise, further fostering a culture of innovation within Cisco.
Conclusion
Mark Conner's dedication to innovation and his impressive portfolio of patents underscore his pivotal role in advancing media communication technologies. As telecom continues to evolve, his contributions will undoubtedly remain influential in shaping the future of connectivity.