Company Filing History:
Years Active: 2021-2022
Title: Innovations and Contributions of Ellen Xiaoxia Xu
Introduction
Ellen Xiaoxia Xu is a prominent inventor based in Houston, TX, known for her significant contributions to the field of geophysics and subsurface property estimation. With a focus on utilizing advanced methodologies for analyzing seismic data, she has made notable advancements that enhance the understanding of subsurface formations.
Latest Patents
Ellen Xu holds 2 patents that showcase her innovative approaches. Her latest patents include:
1. **System and method for property estimation from seismic data** - This method involves receiving a seismic dataset and a well log, identifying seismic traces corresponding to the well location, and training a neural network using generated training datasets. The method is designed to be executed by a computer system.
2. **System and method for lateral statistical estimation of rock and fluid properties in a subsurface formation** - This method focuses on estimating hydrocarbon reservoir attributes by obtaining geophysical and geological datasets, generating statistical seismic attributes, and creating uncertainty maps for critical attributes. This method is also executable by a computer system.
Career Highlights
Ellen Xu is currently employed at Chevron U.S.A. Inc., where she applies her expertise in geophysics to drive innovation in subsurface analysis. Her work has been instrumental in developing methods that improve the accuracy of property estimations in hydrocarbon reservoirs.
Collaborations
Ellen collaborates with esteemed colleagues, including Ke Wang and James P. Disiena, to further enhance the research and development of innovative solutions in her field.
Conclusion
Ellen Xiaoxia Xu's contributions to the field of geophysics through her patents and work at Chevron U.S.A. Inc. highlight her role as a leading inventor in subsurface property estimation. Her innovative methods continue to advance the understanding of geological formations and improve resource estimation techniques.