Company Filing History:
Years Active: 1995
Title: Innovations of John R. Potter in Seismic Data Processing
Introduction
John R. Potter is a notable inventor based in Houston, Texas, recognized for his contributions to the field of seismic data processing. He holds a patent that addresses the challenge of coherent noise in seismic data, which is crucial for accurate geological assessments. His work is particularly significant in the oil and gas industry, where precise data interpretation is essential.
Latest Patents
John R. Potter's patent, titled "Filter for Removal of Coherent Noise from Seismic Data," presents a method for suppressing or eliminating coherent noise from seismic or borehole data. This innovative method involves the horizontal alignment of traces, comparison of amplitude, phase, and shape of neighboring traces, and the subtraction of traces from neighboring traces only when local correlation is high. This approach enhances the clarity and reliability of seismic data, making it invaluable for exploration and production activities.
Career Highlights
Potter is affiliated with Exxon Production Research Company, where he applies his expertise in seismic data analysis. His work at Exxon has allowed him to contribute significantly to advancements in the field, particularly in improving the accuracy of seismic interpretations. His innovative methods have been instrumental in enhancing the efficiency of data processing in the oil and gas sector.
Collaborations
John R. Potter has collaborated with various professionals in his field, including his coworker Louis M. Houston. These collaborations have fostered an environment of innovation and have led to the development of effective solutions for complex challenges in seismic data processing.
Conclusion
John R. Potter's contributions to seismic data processing through his innovative patent demonstrate his commitment to advancing technology in the oil and gas industry. His work not only enhances data accuracy but also supports the industry's ongoing efforts to optimize resource extraction.