Company Filing History:
Years Active: 2005
Title: Innovations of James E. Poplawski
Introduction
James E. Poplawski is an accomplished inventor based in Ann Arbor, MI (US). He has made significant contributions to the field of remote sensing and imaging through his innovative patent. His work focuses on enhancing the capabilities of sensor arrays, which has implications for various applications in both acoustic and electromagnetic domains.
Latest Patents
James E. Poplawski holds a patent for "Grating array processing methods and apparatus." This patent addresses the spectral content of the interference response at a sensor array, utilizing it to improve remote sensing or imaging of objects or scenes. The method preserves the phase relationship between sensor elements, allowing for the processing of the natural interference spectrum to generate a specific spatial response of the aggregate beam pattern. This technique is applicable to various forms of broadband illumination or emissions, including acoustic and electromagnetic radiation. It provides remote sensing capabilities that are tailored to the wavelength band of interest, whether it be acoustic, RF, or optical. The method can operate in both pulsed and continuous modes, and it can also be applied to passive sensing, utilizing emissions from the object or scene itself.
Career Highlights
James E. Poplawski is currently associated with Veridian Systems, where he continues to develop innovative solutions in the field of remote sensing. His work has been instrumental in advancing the technology used in sensor arrays, contributing to the efficiency and effectiveness of imaging techniques.
Collaborations
James has collaborated with various professionals in his field, including his coworker Paul L. Mohan. Their combined expertise has led to advancements in the applications of sensor technology.
Conclusion
James E. Poplawski's contributions to the field of remote sensing through his innovative patent demonstrate his commitment to advancing technology. His work continues to influence the way we understand and utilize sensor arrays in various applications.