Company Filing History:
Years Active: 2009
**Title: Marion Westby – Innovator in Automotive Lighting Systems**
Introduction
Marion Westby, hailing from Dearborn, MI, is a notable inventor in the field of automotive technology. She holds a patent that significantly enhances the functionality of interior vehicle lighting. As a member of the Ford Global Technologies, LLC team, Marion has contributed innovative solutions that improve user experience within vehicles.
Latest Patents
Westby is credited with a patent titled “Apparatus and method for dimming function to control LED intensity.” This invention presents a sophisticated system for controlling interior lighting in vehicles, where users can select from a plurality of colors. The system comprises multiple light-emitting devices strategically arranged throughout the vehicle, a color selection device, and a controller. The controller operates by generating pulse width modulated (PWM) signals that correspond to the user's chosen color, effectively managing the LED intensity to create a visually appealing and customizable interior ambiance.
Career Highlights
With one patent to her name, Marion Westby has demonstrated her capability as an innovator in the automotive industry. Her work at Ford Global Technologies, LLC has positioned her at the forefront of vehicle lighting advancements, making a tangible impact on automotive design and functionality.
Collaborations
Throughout her career, Marion has collaborated with notable colleagues such as Cornel Lewis Gardner and James Ryan Chinavare. These partnerships have fostered an environment of innovation and creativity, allowing for the development of cutting-edge technology that enhances vehicle lighting systems.
Conclusion
Marion Westby exemplifies the spirit of innovation within the automotive sector. Her patent for an advanced lighting control system is a testament to her ingenuity and dedication to improving the driving experience. As she continues her work at Ford Global Technologies, LLC, her contributions are sure to influence future automotive designs and functionalities.