Company Filing History:
Years Active: 2013-2014
Title: Innovations of Harald Franz Arno Merkel
Introduction
Harald Franz Arno Merkel is a notable inventor based in Lindome, Sweden. He has made significant contributions to the field of submillimeter radar technology. With a total of 3 patents, his work focuses on enhancing the capabilities of radar systems to better detect and analyze objects.
Latest Patents
Merkel's latest patents include innovative systems that utilize submillimeter wavelengths for improved radar functionality. One of his patents describes a submillimeter radar using signals reflected from multiple angles. This system features a receiver designed to capture and downconvert signals from various points in its field of view. The signal processor then determines information about the content by analyzing these downconverted signals. By obtaining signals from different angles, the system addresses the limitations of submillimeter wavelengths, which typically only detect surfaces facing the radar.
Another significant patent involves a submillimeter radar that processes phase information. This system's signal processor analyzes signals that vary in amplitude and phase, allowing for the discrimination of content based on periodic components. This method enhances sensitivity to changes in objects, backgrounds, and atmospheric conditions, providing richer data than amplitude alone.
Career Highlights
Harald Merkel is currently employed at Toyota Motor Europe NV/SA, where he applies his expertise in radar technology. His work at Toyota has allowed him to contribute to advancements in automotive safety and navigation systems.
Collaborations
Merkel has collaborated with notable colleagues, including Hiromichi Yanagihara and Mineki Soga. Their combined efforts have fostered innovation in radar technology and its applications.
Conclusion
Harald Franz Arno Merkel's contributions to submillimeter radar technology demonstrate his commitment to advancing the field. His innovative patents and collaborative efforts continue to influence the development of more effective radar systems.