Company Filing History:
Years Active: 2022
Title: Keiichi Higo: Innovator in Control Systems
Introduction
Keiichi Higo is a notable inventor based in Kyoto, Japan. He has made significant contributions to the field of control systems, particularly in the development of technologies that enhance the safety and reliability of movable-body apparatuses. His innovative work has led to the filing of a patent that addresses critical aspects of control mechanisms.
Latest Patents
One of Keiichi Higo's key patents is titled "Control apparatus, control system, control method, and storage medium." This patent describes a control apparatus that includes a controller, a receiver, and a discriminator. The receiver is designed to receive instructions for controlling the brake of a movable-body apparatus. The discriminator plays a crucial role by determining whether the received instruction is fraudulent based on specific conditions related to the speed of the moving body and its distance from obstacles. This innovation aims to enhance the safety and efficiency of control systems in various applications.
Career Highlights
Keiichi Higo is associated with Panasonic Intellectual Property Management Co., Ltd., where he has been instrumental in advancing the company's technological capabilities. His work focuses on creating solutions that improve the functionality and safety of control systems. With a patent portfolio that includes 1 patent, Higo has established himself as a valuable contributor to the field of engineering and technology.
Collaborations
Throughout his career, Keiichi Higo has collaborated with esteemed colleagues such as Tohru Wakabayashi and Toshihisa Nakano. These collaborations have fostered an environment of innovation and have led to the development of cutting-edge technologies in control systems.
Conclusion
Keiichi Higo's contributions to control systems exemplify the spirit of innovation and dedication to safety in technology. His patent work continues to influence the industry, showcasing the importance of reliable control mechanisms in modern applications.