Company Filing History:
Years Active: 2023-2024
Title: Resham Bains: Innovating Aircraft Brake Systems
Introduction
Resham Bains, a talented inventor based in Tipp City, OH, has made significant contributions to the field of aircraft brake systems. With a total of three patents to her name, Bains is recognized for her innovative approach to enhancing safety and functionality in aviation technology.
Latest Patents
Among Bains' most notable inventions is her method for detecting brake failure during aircraft landing gear retraction. This patent describes a systematic way to identify faults in a brake mechanism by using data from wheel speed characteristics. The brake control unit activates the brake mechanism and analyzes the wheel speed data against a predetermined database to ascertain whether a fault exists.
Another significant patent from Bains focuses on addressing uncommanded brake applications and monitoring brake temperature in aircraft. This innovative system incorporates both primary and alternate brake control units, ensuring that even in the event of a primary unit failure, the braking system remains operational and effective. This dual-architecture approach enhances the reliability of aircraft braking systems, ultimately contributing to safer flight operations.
Career Highlights
Resham Bains is currently associated with Goodrich Corporation, where she leverages her expertise in aviation technology to develop advanced braking systems. Her work in the aerospace sector has positioned her as a key player in engineering, particularly in improving aircraft safety through innovation.
Collaborations
Throughout her career, Bains has collaborated with notable coworkers such as Marc Georgin and Tyler Arsenault. These partnerships foster an environment of creativity and technical excellence, allowing Bains to achieve remarkable advancements in her field.
Conclusion
With her impressive track record of patents and collaborations, Resham Bains exemplifies the spirit of innovation in the aviation industry. Her contributions continue to enhance the safety and effectiveness of aircraft brake systems, ensuring that her work has a lasting impact on aviation technology.