Company Filing History:
2 out of 68 
2 out of 3 
1 out of 45 
Years Active: 2008-2020
Title: Philippe Herrmann – Innovator in Seismic Technology
Introduction
Philippe Herrmann, an accomplished inventor located in Villepreux, France, has made significant strides in the field of seismic technology. With a total of six patents to his name, his innovative contributions are shaping the way seismic data is collected and processed.
Latest Patents
Among his latest inventions is the "Water-coupled underwater node for seismic surveys," designed to enhance the efficiency of underwater seismic recordings. This marine node features a spherical body made from a material that maintains buoyancy neutrality in water, allowing for accurate data collection. It is equipped with a first sensor that captures three-dimensional movements and a second sensor that records pressure waves. Additionally, the node includes cables that connect these sensors to external devices, greatly facilitating seismic data acquisition. Another noteworthy patent involves a "Method of seismic data processing," which outlines a comprehensive approach for handling seismic traces, focusing on signals recorded after propagation in subsurface areas.
Career Highlights
Philippe has worked with prominent companies such as Compagnie Générale de Geophysique and CGG Veritas SA. His experience in these organizations has provided him with a solid foundation in geophysical research and technology development, further enhancing his inventive capabilities.
Collaborations
Throughout his career, Philippe has collaborated with talented professionals, including Risto Siliqi and Nicolas Bousquie. Their joint efforts have contributed to advancements in seismic applications and data processing methods, bringing innovative solutions to the industry.
Conclusion
Philippe Herrmann's expertise and inventive spirit have significantly impacted the field of seismic technology. His patents exemplify a commitment to innovation and address the challenges faced in seismic surveys. As he continues to explore new possibilities, the implications of his work will undoubtedly extend across various applications in geophysical science.