Company Filing History:
Years Active: 2016-2018
Title: Guenther Wiedemann: Innovator in Robotic Technology
Introduction
Guenther Wiedemann is a notable inventor based in Gersthofen, Germany. He has made significant contributions to the field of robotics, particularly in programming and controlling robotic movements. With a total of 2 patents, his work has advanced the capabilities of industrial robots.
Latest Patents
Wiedemann's latest patents include innovative methods for synchronizing robot movements. The first patent, titled "Setting synchronized robot movements," introduces a programming means that allows for the synchronization of movements between multiple robot axis arrangements. This inventive approach enables the specification of additional positions that are not synchronized with the primary movements, enhancing the flexibility and efficiency of robotic operations.
The second patent, "Method and means for providing and/or controlling a manipulator process," focuses on designating and controlling manipulator processes for configurations that include industrial robots. This method allows for varied actions in response to different movement directions, improving the adaptability of robotic systems in various applications.
Career Highlights
Guenther Wiedemann is currently employed at Kuka Roboter GmbH, a leading company in the robotics industry. His work at Kuka has positioned him as a key player in the development of advanced robotic technologies. His innovative approaches have contributed to the company's reputation for excellence in automation solutions.
Collaborations
Wiedemann has collaborated with notable colleagues such as Manfred Huettenhofer and Andreas Hagenauer. These partnerships have fostered a creative environment that encourages the development of groundbreaking technologies in robotics.
Conclusion
Guenther Wiedemann's contributions to robotic technology through his patents and work at Kuka Roboter GmbH highlight his role as an influential inventor in the field. His innovative methods for synchronizing and controlling robotic movements continue to shape the future of automation.