Dora T Yen

Title: Innovations by Dora T Yen

Introduction

Dora T Yen is an accomplished inventor based in Dublin, California. She has made significant contributions to the field of micro-electro-mechanical systems (MEMS) through her innovative patent. Her work focuses on enhancing aerodynamic performance, which has implications for various applications in engineering and technology.

Latest Patents

Dora T Yen holds a patent for "Microfabricated translational stages for control of aerodynamic loading." This invention introduces micro-electro-mechanical (MEM) translational tabs designed to enhance and control aerodynamic loading on lifting surfaces. These microtabs are strategically mounted near the trailing edge of lifting surfaces and deploy approximately normal to the surface. The maximum deployment height is on the order of the boundary layer thickness. By effectively changing the camber, these microtabs significantly influence the lift generated by the surface. The impact of these microtabs on lift is comparable to that of conventional control surfaces, such as ailerons. The application of this innovative lift enhancement device can lead to the elimination of bulky conventional high-lift and control systems, resulting in reduced system weight, complexity, and cost.

Career Highlights

Dora T Yen is affiliated with the University of California, where she continues to advance her research and development in the field of MEMS. Her work has garnered attention for its potential to revolutionize aerodynamic control systems.

Collaborations

Dora has collaborated with notable colleagues, including Cornelis P Van Dam and Rosemary L Smith. Their combined expertise contributes to the advancement of innovative technologies in their respective fields.

Conclusion

Dora T Yen's contributions to the field of micro-electro-mechanical systems exemplify the impact of innovative thinking on engineering solutions. Her patent for microfabricated translational stages showcases her commitment to enhancing aerodynamic performance and reducing system complexities.