Yequan Chen

Title: Yequan Chen: Innovator in Seismic Inversion Technologies

Introduction

Yequan Chen is a prominent inventor based in Houston, TX, specializing in seismic inversion technologies. He has made significant contributions to the field, holding a total of 3 patents that enhance the understanding and exploration of subsurface formations.

Latest Patents

One of his latest patents is titled "Method for calibrating prestack seismic inversion using fully connected neural networks." This innovative approach involves selecting various features from inverted elastic properties to generate reservoir properties. Fully connected neural network models are utilized to learn the mapping between these features and ground truth data at well locations, ultimately generating final models for reservoir characterization across the entire survey region.

Another notable patent is "Method and apparatus for building envelope guided low frequency model for seismic exploration of subsurface formations." This method provides a comprehensive system for generating and displaying a low frequency model for a seismic survey region. It includes defining the seismic survey geometry, processing seismic data to obtain elastic attributes, and generating a three-dimensional low frequency model through inversion using envelope data.

Career Highlights

Yequan Chen is currently employed at China Petroleum & Chemical Corporation, where he applies his expertise in seismic technologies. His work has significantly advanced the methodologies used in seismic exploration, contributing to more accurate subsurface assessments.

Collaborations

Throughout his career, Yequan has collaborated with notable colleagues, including Fan Xia and Yi Tao. These partnerships have fostered innovation and enhanced the development of seismic technologies.

Conclusion

Yequan Chen's contributions to seismic inversion technologies demonstrate his commitment to advancing the field. His innovative patents and collaborative efforts continue to shape the future of subsurface exploration.