Company Filing History:
Years Active: 2023-2024
Title: The Innovative Contributions of Sophie Gigliotti
Introduction
Sophie Gigliotti is a prominent inventor based in Montreal, Canada. She has made significant strides in the field of optical systems, holding 2 patents that showcase her innovative approach to design and functionality. Her work is characterized by a commitment to enhancing imaging quality through advanced optical technologies.
Latest Patents
One of Sophie Gigliotti's latest patents is an "Optical system with dynamic distortion using freeform elements." This patent presents a method for designing an optical system that provides reliable and robust realization of a distortion variation function. The proposed distortion variation optical system includes at least two non-symmetrical elements that move in the transverse direction. The freeform lens designed with this method features two transmissive refractive surfaces, with one being a flat surface and the other a non-symmetrical freeform surface. These two plano-surfaces are oriented to face each other, allowing for the integration of a miniature camera. The non-symmetrical freeform surface is utilized to produce variable optical power when the two freeform elements undergo relative movement in the vertical direction. This innovative method results in an optical system with active distortion, a smaller form factor, and improved imaging quality.
Career Highlights
Sophie Gigliotti is currently employed at Immervision, Inc., where she continues to develop cutting-edge optical technologies. Her work at the company has positioned her as a leader in the field, contributing to advancements that benefit various applications in imaging and optics.
Collaborations
Sophie collaborates with talented individuals such as Zhenfeng Zhuang and Jocelyn Parent, who contribute to her innovative projects and research endeavors.
Conclusion
Sophie Gigliotti's contributions to the field of optical systems exemplify her dedication to innovation and excellence. Her patents reflect a deep understanding of optical design, and her work continues to influence advancements in imaging technology.