Lixi Wu

Title: Innovations of Lixi Wu in Signal Processing

Introduction

Lixi Wu is a prominent inventor based in San Diego, California. He has made significant contributions to the field of signal processing, particularly in the area of leakage signal cancellation. With a total of four patents to his name, Wu's work has advanced the capabilities of detection systems.

Latest Patents

Lixi Wu's latest patents include innovative methods and systems for leakage signal cancellation. These embodiments involve detection apparatus that can effectively cancel or reduce leakage signals originating from a source signal generated and transmitted from a transmitter. A leakage cancellation signal is generated digitally, converted to an analog signal, and then subtracted in the analog domain from a received signal. This process provides a leakage-reduced signal that is essential for the detection and analysis of objects. Additionally, a digital cancellation signal may be created by generating a cancellation signal in the frequency domain and converting it to the time domain. An estimate of a residual leakage signal can also be generated to further reduce any remaining leakage in the leakage-reduced signal. These methods can be applied across various applications, showcasing the versatility of Wu's inventions.

Career Highlights

Lixi Wu is currently employed at Future Wei Technologies, Inc., where he continues to innovate and develop advanced technologies. His work has been instrumental in enhancing the performance of radar and detection systems, making significant strides in the field.

Collaborations

Lixi Wu has collaborated with notable colleagues such as Ricky Lap Kei Cheung and Luzhou Xu. Their combined expertise has contributed to the successful development of innovative technologies in signal processing.

Conclusion

Lixi Wu's contributions to signal processing through his patents and collaborations highlight his role as a leading inventor in the field. His work continues to influence advancements in detection systems and signal analysis.