Company Filing History:
Years Active: 2020
Title: The Innovations of Matthew Andrews
Introduction
Matthew Andrews is an accomplished inventor based in Chatham, NJ (US). He has made significant contributions to the field of wireless communication, particularly in the development of 5G technology. His innovative work has led to the granting of a patent that addresses critical aspects of network slicing in 5G wireless networks.
Latest Patents
Matthew Andrews holds a patent for the "Transmission of network slicing constraints in 5G wireless networks." This patent describes a method by which a 5G network communicates per-slice constraints for Quality of Service (QoS) parameter values from a centralized unit (CU) to a MAC scheduler of a distributed unit (DU). The CU communicates these per-slice constraints, rather than or in addition to per-DRB constraints, to the MAC scheduler over the CU/DU interface. In some implementations, the CU/DU interface is an F1 air interface as defined in specification 38.473 in the 3GPP standard. Additionally, the DU provides per-slice performance feedback over the CU/DU interface, allowing the CU to adjust the per-slice QoS constraints based on such feedback. This innovation is crucial for enhancing the efficiency and performance of 5G networks.
Career Highlights
Matthew Andrews is currently employed at Nokia Technologies Oy, where he continues to work on advancing wireless communication technologies. His expertise in network slicing and QoS management has positioned him as a key player in the development of next-generation mobile networks.
Collaborations
Matthew has collaborated with notable professionals in the field, including Sem Borst and Siegfried Klein. These collaborations have further enriched his work and contributed to the advancement of innovative solutions in wireless technology.
Conclusion
Matthew Andrews is a pioneering inventor whose work in 5G wireless networks exemplifies the spirit of innovation. His contributions are shaping the future of communication technology and enhancing the capabilities of modern networks.