Company Filing History:
Years Active: 2021
Title: Shanhui Ye: Innovator in Biometric Imaging Technology
Introduction
Shanhui Ye is a notable inventor based in Jiangxi, China. He has made significant contributions to the field of biometric imaging technology. His innovative approach focuses on enhancing the efficiency and quality of image capturing methods.
Latest Patents
Shanhui Ye holds a patent for a "Method and system for imaging acquisition." This invention discloses an image capturing method and device designed to rapidly capture various types of biometric characteristic image information. The method involves using a device that can be easily integrated. It includes turning on a first supplementary lighting source when an object is detected within a first capturing distance. This lighting source supplements the illumination for capturing the first biometric characteristic. The process continues with acquiring first biometric characteristic image information through an imaging element. Additionally, a second supplementary lighting source is activated when an object is detected within a second capturing distance, allowing for the acquisition of second biometric characteristic image information. This innovative approach ensures high-quality image capture while simplifying the device's integration by utilizing a single imaging element.
Career Highlights
Shanhui Ye is currently employed at ZKTeco USA LLC, where he continues to develop and refine his innovative technologies. His work focuses on advancing biometric imaging systems, contributing to the company's reputation as a leader in security and identification solutions.
Collaborations
Shanhui Ye collaborates with Zhinong Li, a talented woman in the field. Together, they work on projects that enhance the capabilities of biometric imaging technologies.
Conclusion
Shanhui Ye's contributions to biometric imaging technology demonstrate his innovative spirit and commitment to advancing the field. His patent reflects a significant step forward in capturing high-quality biometric images efficiently.