Company Filing History:
Years Active: 2019
Title: Xuanjiao Li: Innovating Security with Anti-Masking Technology
Introduction
Xuanjiao Li, an innovative inventor based in Shenzhen, China, has made significant contributions to the field of security technology. With a focus on enhancing intrusion detection systems, Li has developed a unique solution to combat the challenges posed by masking substances that can hinder detection mechanisms.
Latest Patents
Li holds a notable patent titled "Anti-masking assembly for intrusion detector and method of detecting application of a masking substance." This patent describes a sophisticated anti-masking device designed for intrusion detection. The device features a cover that encloses an interior area housing an electric light source and a light detecting sensor. The cover is engineered with a light-permeable area that possesses a jagged array of alternating channels and projections, enhancing its functionality. By utilizing a light guide configured to direct light through the jagged array, the system is designed to effectively identify masking substances, ensuring the reliability of intrusion detection.
Career Highlights
Xuanjiao Li currently works at Ademco Inc., a company renowned for its commitment to advancing security solutions. His innovative approach and technical expertise have contributed to the development of effective products that enhance safety and security.
Collaborations
Throughout his career, Li has collaborated with talented individuals such as Haidong Xu and Guobin Xu. Together, they have worked on various projects aimed at improving the capabilities of intrusion detection systems, showcasing a strong spirit of teamwork and innovation in their field.
Conclusion
Xuanjiao Li's dedication to innovation in security technology, exemplified by his pioneering anti-masking device, demonstrates the impact that determined inventors can have on advancing safety solutions. As threats to security continue to evolve, inventions like Li's are vital in ensuring effective protection mechanisms remain ahead of the challenges posed by masking and deceptive techniques.