Company Filing History:
Years Active: 2017-2018
Title: Hiroyuki Nakabe: Innovator in Surveying Instruments
Introduction
Hiroyuki Nakabe is a prominent inventor based in Tokyo-to, Japan. He has made significant contributions to the field of surveying instruments, holding a total of 3 patents. His innovative designs have enhanced the accuracy and efficiency of surveying processes.
Latest Patents
One of Nakabe's latest patents involves a sophisticated surveying instrument that features a frame unit rotatable in a horizontal direction. This instrument includes a telescope unit that can rotate vertically, a driving unit for movement, and both horizontal and vertical angle measuring units. The design incorporates a wide-angle camera that captures images in the sighting direction, allowing for precise measurements of the sun's position. The control device detects the sun's image and adjusts the instrument to determine true north based on various parameters, including time, angles, and geographical coordinates.
Another patent focuses on a control device that generates a reference clock signal. This device produces a time signal indicating standard time from a GNSS device, allowing for accurate time stamping of image signals. It calculates the azimuth angle of the sun based on the instrument's location and updates the horizontal angle accordingly.
Career Highlights
Hiroyuki Nakabe is currently employed at Topcon Corporation, a leading company in the field of surveying and geospatial technology. His work has significantly advanced the capabilities of surveying instruments, making them more reliable and user-friendly.
Collaborations
Nakabe has collaborated with notable coworkers, including Takeshi Ishida and Nobuyuki Nishita. Their combined expertise has contributed to the development of innovative surveying solutions.
Conclusion
Hiroyuki Nakabe's contributions to surveying technology through his patents and work at Topcon Corporation highlight his role as a key innovator in the field. His inventions continue to shape the future of surveying instruments, enhancing their functionality and precision.