Company Filing History:
Years Active: 2009
Title: The Innovative Contributions of Jane Jinhua Liu
Introduction
Jane Jinhua Liu is a prominent inventor based in Kanata, Canada. She has made significant contributions to the field of telecommunications, particularly in the area of redundancy mechanisms. Her innovative approach has led to the development of a patent that addresses critical challenges in maintaining high availability of resources within telecommunications networks.
Latest Patents
Jane Jinhua Liu holds a patent titled "High availability of resources in telecommunications network using synchronized redundancy mechanism." This patent describes novel redundancy mechanisms that can be implemented on a telecommunications node. The mechanisms allow for an inactive device to be maintained in hot standby alongside an active device, enabling a substantially hitless activity switch. The inactive device is kept synchronized with the active device by updating it only when the status of the connection changes. This innovation is crucial for enhancing the reliability and efficiency of telecommunications networks.
Career Highlights
Jane has had a successful career at Alcatel Lucent, where she has been instrumental in advancing telecommunications technology. Her work has not only contributed to her company's success but has also had a lasting impact on the industry as a whole. With her expertise, she has been able to tackle complex problems and develop solutions that improve network performance.
Collaborations
Throughout her career, Jane has collaborated with talented individuals such as Jason Rusmisel and Keven Jules Eyre. These collaborations have allowed her to leverage diverse perspectives and expertise, further enhancing the quality of her innovations.
Conclusion
Jane Jinhua Liu's contributions to telecommunications through her innovative patent demonstrate her commitment to advancing technology in this critical field. Her work continues to influence the industry, showcasing the importance of creativity and collaboration in driving progress.