Company Filing History:
Years Active: 2024
Title: The Innovative Work of Inventor Xiayu Zhang
Introduction
Xiayu Zhang is a prominent inventor based in Xi'an, China, renowned for his contributions to enhancing network coverage in telecommunications. With a focus on leveraging technological advancements, Zhang has developed a unique method to improve network efficiency through innovative resource management.
Latest Patents
Zhang holds a significant patent titled "Method for Enhancing Network Coverage Based on Adaptive Generation of Resource Cell." This invention addresses the challenges of traditional network cells, starting from an initial network state and utilizing a correlation matrix to assess current conditions. The method includes determining cell efficiency through specific thresholds and dividing access points into multiple resource cells. Moreover, a comprehensive CU-DU network mapping table is created, facilitating the construction of middlehaul links for each resource cell, ultimately enhancing overall network coverage.
Career Highlights
Xiayu Zhang is associated with Xidian University, a prestigious institution known for its research and education in information technology and electronic engineering. His role as an inventor exemplifies his commitment to advancing technological frontiers and contributing to the academic community.
Collaborations
Throughout his research endeavors, Zhang has collaborated with notable colleagues, including Junyu Liu, working together to explore the application of their innovations in various telecommunications fields. Such teamwork underscores the collaborative spirit essential for driving breakthroughs in technology.
Conclusion
Xiayu Zhang's innovative methods for improving network coverage represent significant advancements in telecommunications. His patent reflects not only his ingenuity as an inventor but also the importance of collaboration in fostering successful innovations. As technology continues to evolve, contributions like Zhang’s are pivotal to shaping the future of communication networks.