Company Filing History:
Years Active: 2022
Title: He Xu: Innovator in Seismic Data Enhancement
Introduction
He Xu is a prominent inventor based in Chengdu, China. He has made significant contributions to the field of seismic data processing, particularly in enhancing the characterization precision of deep carbonate reservoirs. His innovative approach has the potential to improve geological anomaly detection, which is crucial for various applications in geoscience and petroleum engineering.
Latest Patents
He Xu holds a patent titled "Method of low-frequency seismic data enhancement for improving characterization precision of deep carbonate reservoir." This method involves performing inversions on an input seismic data set to obtain reflection coefficients and average seismic wavelets. It also includes constructing a seismic wavelet rich in low-frequency information and performing convolution with the reflection coefficients to enhance low-frequency energy in the seismic data. This innovative technique takes into account changes in seismic data in both transverse and longitudinal directions, allowing for optimal processing effects based on actual work area conditions. The result is a significant improvement in the characterization quality of geological anomalies, such as faults and fracture systems, in deep carbonate reservoirs.
Career Highlights
He Xu is affiliated with Chengdu University of Technology, where he continues to advance research in seismic data processing. His work has garnered attention for its practical applications in the energy sector, particularly in improving the efficiency of resource extraction from complex geological formations.
Collaborations
He Xu has collaborated with notable colleagues, including Xuehua Chen and Jie Zhang. Their combined expertise contributes to the advancement of innovative solutions in seismic data enhancement.
Conclusion
He Xu's contributions to seismic data processing exemplify the impact of innovative thinking in the field of geoscience. His patented method not only enhances the precision of geological characterization but also paves the way for more efficient resource management in deep carbonate reservoirs.