Company Filing History:
Years Active: 2007
Title: The Innovative Contributions of Leslie Mobley
Introduction
Leslie Mobley is a distinguished inventor based in Sterling, VA (US). She has made significant contributions to the field of sonar technology, particularly in the area of high-frequency passive sonar performance prediction. Her innovative work has implications for various underwater applications, enhancing the capabilities of sonar systems.
Latest Patents
Leslie Mobley holds a patent for a "Method and apparatus for high-frequency passive sonar performance prediction." This invention is a sophisticated system and method designed to predict the performance of passive, high-frequency sonar arrays at any underwater location. The system operates as a software package on a computer, allowing operators to select geographical locations, specify sonar arrays, and define targets. The necessary bathymetric and environmental data are automatically acquired or generated, ensuring accurate predictions. The Comprehensive Acoustic System Simulation (CASS) software module performs ray tracing to produce Cross-Spectral Density (CSD) matrices, which are essential for generating graphic and numeric representations of the sonar array's performance.
Career Highlights
Leslie Mobley is affiliated with The Johns Hopkins University, where she continues to advance her research and development in sonar technology. Her work is characterized by a commitment to innovation and excellence, contributing to the academic and practical applications of sonar systems.
Collaborations
Leslie has collaborated with notable colleagues, including Juan I Arvelo, Jr. and Patrick A Ferat. These partnerships have fostered a collaborative environment that enhances the development of cutting-edge technologies in her field.
Conclusion
Leslie Mobley's contributions to sonar technology exemplify her innovative spirit and dedication to advancing scientific knowledge. Her patent for high-frequency passive sonar performance prediction showcases her ability to integrate complex data into practical applications. Through her work at The Johns Hopkins University, she continues to influence the field and inspire future innovations.