Company Filing History:
Years Active: 2000
Title: Innovator Andrew David Robinson: A Pioneer in Optical Technology
Introduction
Andrew David Robinson, based in Newfield, NY, is an accomplished inventor known for his significant contributions to optical technology. With a focus on measuring polarization mode dispersion, Robinson holds a patent that showcases his innovative approach to improving optical waveguide devices.
Latest Patents
Robinson's sole patent is titled "Method of measuring the polarization mode dispersion of an optical." This method provides a solution for measuring the polarization mode dispersion of a chromatic dispersion compensating optical waveguide device. The procedure involves applying a force multiple times to the spool flanges of the device, extracting several polarization mode dispersion values that display a Maxwellian distribution. This results in a mean polarization mode dispersion value, enhancing the performance of optical waveguide devices.
Career Highlights
Currently, Andrew David Robinson is employed at Corning Incorporated, a leading company in materials science and glass manufacturing. His work there signifies not only his commitment to innovation but also his dedication to advancing optical technologies. His career is marked by a focus on practical applications that improve data transmission and optical clarity.
Collaborations
During his tenure at Corning Incorporated, Robinson has worked alongside talented professionals such as John Eugene Brarens and Dipakbin Qasem Chowdhury. These collaborations have allowed for the exchange of ideas and expertise, further driving advancements in optical technology and solutions.
Conclusion
Andrew David Robinson's work exemplifies the spirit of innovation within the field of optical technology. His patent and collaborations point towards a promising future, not just for himself but for the advancement of technologies that rely on high-quality optical performance. As Robinson continues to explore the boundaries of research and development, his contributions are likely to reshape the landscape of optical waveguide devices and beyond.