Company Filing History:
Years Active: 2003
Title: Paul E. Rybski: Innovator in Robotic Vehicle Technology
Introduction
Paul E. Rybski is a notable inventor based in Minneapolis, MN (US). He has made significant contributions to the field of robotics, particularly in the development of miniature robotic vehicles. His innovative designs and methods have the potential to revolutionize how robotic vehicles operate in various terrains.
Latest Patents
One of Paul E. Rybski's key patents is for a "Miniature robotic vehicle and methods of controlling same." This invention describes a robotic vehicle capable of traversing diverse terrains and overcoming obstacles. The vehicle features a cylindrical body with two or more drive wheels that can be selectively powered to propel it forward. Additionally, it includes a spring member that can be deflected to store energy, allowing for a quick release that propels the vehicle over obstacles. The design also incorporates sensing devices for information collection and electronics that enable autonomous, semi-autonomous, and remote control capabilities. Furthermore, the robotic vehicle can be part of a multi-robot surveillance team, enhancing its functionality in various applications.
Career Highlights
Paul E. Rybski is affiliated with the University of Minnesota, where he continues to work on advancing robotic technologies. His research and inventions have garnered attention in the field, showcasing his expertise and innovative spirit. With 1 patent to his name, he stands out as a key figure in the development of robotic systems.
Collaborations
Throughout his career, Paul has collaborated with esteemed colleagues such as Nikolaos Papanikolopoulos and Donald G. Krantz. These partnerships have contributed to the advancement of research in robotics and have fostered a collaborative environment for innovation.
Conclusion
In summary, Paul E. Rybski is a pioneering inventor whose work in miniature robotic vehicles demonstrates his commitment to innovation in robotics. His contributions have the potential to impact various industries and enhance the capabilities of robotic systems.