Company Filing History:
Years Active: 2024
Title: Innovator Spotlight: Nitya Raghunath
Introduction
Nitya Raghunath is an accomplished inventor based in Sunnyvale, CA. She is known for her contributions to the field of wireless communication, particularly in relation to 5G technology. With a focus on enhancing user equipment performance, Raghunath has secured a patent that signifies her innovative approach and expertise.
Latest Patents
Raghunath holds a patent titled "Dynamic Measurement Window Determination for 5G New Radio User Equipment." This patent involves a method, apparatus, and computer-readable medium of wireless communication at a user equipment (UE). The patented concepts include receiving a synchronization signal block (SSB) configuration that schedules a measurement window with a first duration. The invention progresses by receiving at least one SSB during this measurement window and subsequently selecting a second duration that is shorter than the first. This innovative approach aims to optimize the performance and efficiency of 5G communications.
Career Highlights
Currently, Nitya Raghunath is a key member of the engineering team at Qualcomm Incorporated. Her work at Qualcomm is instrumental in advancing the standards and specifications of next-generation wireless technologies. She combines her technical knowledge with a strong commitment to innovation, helping to push the boundaries of what is possible in mobile communication.
Collaborations
Throughout her career, Raghunath has collaborated with notable colleagues in the industry, including Arnab Pal and Jun Zhu. These collaborations foster a dynamic working environment that encourages creativity and problem-solving in developing cutting-edge technologies.
Conclusion
Nitya Raghunath exemplifies the spirit of innovation in the wireless communication sector. Her patent contributions and collaborative efforts at Qualcomm Incorporated have positioned her as a notable inventor in the field. As she continues to refine and develop new technologies, the impact of her work on the future of 5G communications remains significant.