Yoshimi Kamitani

Title: Innovations by Yoshimi Kamitani

Introduction

Yoshimi Kamitani is a notable inventor based in Kyoto, Japan. She has made significant contributions to the field of control devices and methods, holding a total of 3 patents. Her work focuses on enhancing the efficiency and precision of motor control systems.

Latest Patents

Kamitani's latest patents include a control device and control method that enable control based on both sequence and numerical control programs. This innovation allows for a reduction in the number of process steps required for effective control. The control device is designed to manage multiple motors, featuring a first program executing unit for sequence programs and a second unit for numerical control calculations. Additionally, her invention includes a state managing unit that updates control states based on instructions and execution states from the program units.

Another significant patent involves a control apparatus and program that precisely manage the position of a rotator. This invention utilizes a simple structure to control the rotation of a workpiece through a servo driver and motor, ensuring accurate positioning through a counting range determining part that calculates the necessary pulse quantities.

Career Highlights

Yoshimi Kamitani is currently employed at Omron Corporation, where she continues to innovate in the field of control technology. Her work has been instrumental in advancing the capabilities of motor control systems, making them more efficient and user-friendly.

Collaborations

Kamitani has collaborated with notable colleagues, including Eiji Y Yamamoto and Hiroshi Sawaragi. These partnerships have contributed to the development of her innovative patents and have fostered a collaborative environment for technological advancement.

Conclusion

Yoshimi Kamitani's contributions to the field of control devices and methods highlight her innovative spirit and dedication to improving technology. Her patents reflect a commitment to precision and efficiency in motor control systems, making her a significant figure in her industry.