Company Filing History:
Years Active: 2014
Title: **Innovative Insights from Xiaobin Luo: A Pioneer in Network Congestion Management**
Introduction
Xiaobin Luo, based in Xi'an, China, is an influential inventor known for his contributions in the field of communications. With a focus on enhancing the user experience of existing services, Luo has developed a unique method for judging path congestion, which has implications for data transmission efficiency in network communications.
Latest Patents
Xiaobin Luo holds a patent for a "Method, apparatus, and system for judging path congestion." This patent discloses a method for determining path pre-congestion applicable to Ethernet paths. The innovative approach involves identifying and flagging pre-congestion through ingress or intermediate nodes, and efficiently notifying the relevant application function entity for admission control. This development aims to mitigate issues such as packet loss and long delays typically caused by conventional congestion control technologies.
Career Highlights
Luo is currently employed at Huawei Technologies Co., Limited, a leading global provider of telecommunications equipment and services. His work contributes to enhancing communication technologies and ensuring more reliable data transmission, which is critical in today's data-driven environments.
Collaborations
Throughout his career, Luo has collaborated with esteemed colleagues, including Weixue Zhou and Xushan Lu. These collaborations have fostered advancements in their shared field and contributed to the development of innovative solutions within the telecommunications sector.
Conclusion
Xiaobin Luo's expertise and inventive solutions in network congestion management position him as a valuable asset in the communications industry. His patent reflects a commitment to improving user experiences by addressing fundamental challenges in data transmission. As he continues his work at Huawei Technologies, the impact of his innovations can be expected to grow, further enhancing the efficiency of communication networks.