Company Filing History:
Years Active: 2013
Title: Lingfan Weng: Innovator in Wireless Communication Technologies
Introduction
Lingfan Weng is a prominent inventor based in Hong Kong, CN. He has made significant contributions to the field of wireless communication, particularly through his innovative patent related to multi-user MIMO relay protocols. His work focuses on enhancing communication efficiency and reliability in wireless networks.
Latest Patents
Lingfan Weng holds a patent for a "Multi-user MIMO relay protocol with self-interference cancellation." This patent outlines systems and methodologies for employing a multi-user Multiple Input Multiple Output (MIMO) relay protocol with self-interference cancellation in a wireless communication environment. The technology allows data streams sent between user devices and base stations to traverse through a relay. The relay can employ a decode and forward protocol rather than merely amplifying and forwarding the data streams. Each user device can listen to and decode data streams sent by other user devices to the relay, utilizing these decoded data streams for interference cancellation. Additionally, the user devices and base stations can employ self-interference cancellation upon signals received from the relay. An adaptive relay power allocation algorithm enhances power efficiency for transmitting signals to user devices and base stations.
Career Highlights
Lingfan Weng is associated with Lingna Holdings Pte., LLC, where he continues to develop innovative solutions in wireless communication. His expertise in MIMO technology positions him as a key player in advancing communication systems.
Collaborations
Lingfan Weng collaborates with notable professionals in his field, including Ross David Murch, to further enhance the impact of his inventions.
Conclusion
Lingfan Weng's contributions to wireless communication through his innovative patent demonstrate his commitment to advancing technology in this critical area. His work continues to influence the development of efficient communication systems.