Company Filing History:
Years Active: 2022
Title: Gaivorlor D Borbor: Innovator in Acoustic Calibration
Introduction
Gaivorlor D Borbor is a notable inventor based in Pawtucket, RI (US). He has made significant contributions to the field of acoustic calibration, showcasing his expertise through innovative methods and technologies. His work is particularly recognized for its practical applications in various industries.
Latest Patents
Borbor holds a patent for a "Reverse Acoustic Calibration Method." This method involves calibrating an acoustic calibration tank by utilizing reference hydrophones positioned along the tank. The tank is filled with a fluid at a known temperature and pressure. A calibrated reverse hydrophone is placed in the tank, opposite one of the reference hydrophones. By creating a known acoustic wave in the tank using the calibrated reverse hydrophone, the output from the opposite reference hydrophone is measured. This process allows for the computation of free field voltage sensitivity for the reference hydrophone, ultimately providing the calibration factor for it. The calibrated reverse hydrophone can be repositioned, and an iterative process can be applied for other reference hydrophones under varying pressures and temperatures. Borbor's innovative approach enhances the accuracy and efficiency of acoustic calibration.
Career Highlights
Gaivorlor D Borbor is associated with the United States Navy, where he contributes his expertise in acoustic calibration. His work is vital for ensuring the precision of acoustic measurements, which are essential in various naval applications. His dedication to advancing technology in this field has established him as a respected figure among his peers.
Collaborations
Borbor has collaborated with notable colleagues, including Dehua Huang and Gregory A Blasdell. These partnerships have fostered a collaborative environment that encourages innovation and the sharing of ideas.
Conclusion
Gaivorlor D Borbor's contributions to acoustic calibration through his patented methods demonstrate his commitment to innovation and excellence in his field. His work not only advances technology but also serves as a foundation for future developments in acoustic measurement techniques.