Company Filing History:
Years Active: 2020
Title: Inventor Spotlight: Meg Smith of Eindhoven, NL
Introduction
Meg Smith is an innovative inventor based in Eindhoven, Netherlands. With a focus on enhancing lighting technology, she holds a patent that exemplifies her commitment to combining efficiency and functionality.
Latest Patents
Meg's noteworthy patent, titled "Optimizing Multichannel Luminaire Control Using a Color Efficient Matrix," represents a significant advancement in multichannel luminaires. This invention relates to a color coefficient matrix (CCM) that optimally adjusts the operation of luminaires based on their light contribution to various areas. The CCM can be generated using images captured within the area or through software simulations that analyze the light output. By utilizing this matrix, control signals for each luminaire can be compensated, which leads to improved color rendering and uniform light distribution. Furthermore, embedded sensors within the luminaires and in the surroundings can provide additional feedback to refine control signals, enhancing the quality of both natural and artificial light.
Career Highlights
Meg Smith is currently associated with Signify Holding B.V., a leading company in the field of intelligent lighting. Her work not only demonstrates her inventive capabilities but also her dedication to advancing technology that transforms light into a vital resource for various applications.
Collaborations
Throughout her career, Meg has collaborated with talented colleagues such as Jia Hu and Patricia Rizzo. Their collective expertise has undoubtedly contributed to the development and refinement of her innovative lighting solutions, fostering a collaborative environment that encourages creativity and progress.
Conclusion
Meg Smith's contributions to the field of lighting technology, particularly through her patent for optimizing multichannel luminaire control, underscore her role as a forward-thinking inventor. As she continues her work at Signify Holding B.V., her innovations are likely to have a lasting impact on how we perceive and utilize light in our environments.