Location History:
- Newport, RI (US) (2016)
- North Kingstown, RI (US) (2020)
Company Filing History:
Years Active: 2016-2020
Title: Jackeline D Diapis: Innovator in Acoustic Technology
Introduction
Jackeline D Diapis is a prominent inventor based in North Kingstown, Rhode Island, known for her contributions to acoustic technology. She holds 2 patents that showcase her innovative approach to designing acoustic arrays and sonar systems. Her work has significant implications for naval operations and underwater acoustics.
Latest Patents
One of her latest patents is the "Air Based Sonar Projector Array." This invention features extendable air-based line arrays of directional projectors affixed parallel to a ship hull. The design includes an anchor and a vibration isolator that separate the arrays from the hull, allowing for effective sound projection. The hydraulically-actuated arms can extend the projectors to create narrow beams that generate sonar waves, which reflect off targets and are received by a hydrophone on the ship.
Another notable patent is the "Method for Designing an Acoustic Array." This method involves establishing a desired beam pattern, acoustic wavelength, and beamwidth for the array. It includes calculating geometric parameters and modeling the array as a plurality of elements based on these constraints. The process culminates in constructing an acoustic array designed to meet specific performance criteria.
Career Highlights
Jackeline D Diapis works for the United States Navy, where she applies her expertise in acoustic technology to enhance naval capabilities. Her role involves collaborating with various teams to develop innovative solutions for underwater acoustics.
Collaborations
Throughout her career, she has worked alongside notable colleagues such as Stephen C Butler and Thomas A Frank. Their collaborative efforts have contributed to advancements in the field of acoustic technology.
Conclusion
Jackeline D Diapis is a trailblazer in the realm of acoustic innovations, with her patents reflecting her commitment to enhancing naval technology. Her work continues to influence the development of advanced sonar systems and acoustic arrays.