Company Filing History:
Years Active: 2022
Title: Jun Jiang: Innovator in Network-Based Services
Introduction
Jun Jiang is a prominent inventor based in San Francisco, CA. He has made significant contributions to the field of network-based services, particularly through his innovative patent that enhances user experience in on-demand transport services. His work at Uber Technologies, Inc. showcases his commitment to improving technology in the transportation sector.
Latest Patents
Jun Jiang holds a patent titled "Pre-computed service metric lookup for a network-based service." This invention involves a network system designed to manage network-based services by pre-computing service metrics based on historical data. The system maintains these metrics in a searchable database, allowing user applications to efficiently retrieve relevant information. When users interact with the application to view available service options, the system translates their start and service locations into search keys. These keys are then used to query the database for pertinent service metrics, enabling the user device to display essential information, such as pricing, based on the relevant metrics.
Career Highlights
Throughout his career, Jun Jiang has demonstrated a strong ability to innovate and improve existing technologies. His work at Uber Technologies, Inc. has positioned him as a key player in the development of advanced network systems. His patent reflects his expertise in utilizing historical data to enhance user interactions with network-based services.
Collaborations
Jun Jiang has collaborated with notable colleagues, including Daniel Bilen and Sergey Gitlin. These partnerships have contributed to the advancement of technology within the company and the broader field of network services.
Conclusion
Jun Jiang's contributions to network-based services through his innovative patent exemplify his dedication to enhancing user experiences in the transportation industry. His work continues to influence the development of efficient and effective network systems.