Ryuji Aono

Title: Ryuji Aono: Innovator in Speed Detection and Waveform Correction

Introduction

Ryuji Aono is a notable inventor based in Numazu, Japan. He has made significant contributions to the fields of speed detection and waveform correction, holding a total of 6 patents. His work is characterized by innovative solutions that enhance the accuracy and efficiency of various technologies.

Latest Patents

Among his latest patents, Aono has developed a speed detector and servomotor. This invention involves a speed detector that samples coordinates to determine the position of a moving body and detect its speed. The device includes a memory that stores preset tentative angles and corresponding trigonometric function values. It features registers for storing the first and second coordinates of the moving body, along with an arithmetic operation unit that calculates the speed based on these coordinates.

Another significant patent is a waveform correction apparatus and method. This invention comprises several components that work together to calculate an offset value, determine the actual amplitude of a signal, and generate correction signals. The goal is to ensure that both the actual amplitude and the correction signals converge to reference values, thereby improving signal accuracy.

Career Highlights

Ryuji Aono is currently employed at Toshiba Kikai Kabushiki Kaisha, a leading company in technology and innovation. His role at Toshiba has allowed him to further develop his inventions and contribute to advancements in engineering and technology.

Collaborations

Aono has collaborated with notable coworkers, including Naomi Kobayashi and Takeshi Iida. Their teamwork has fostered an environment of innovation and creativity, leading to the successful development of various projects.

Conclusion

Ryuji Aono's contributions to speed detection and waveform correction exemplify his innovative spirit and dedication to technology. His patents reflect a commitment to enhancing the functionality and precision of modern devices.