Company Filing History:
Years Active: 2025
Title: Josiah Henry: Innovator in Radio Frequency Localization
Introduction
Josiah Henry is a notable inventor based in Linthicum, Maryland. He has made significant contributions to the field of radio frequency technology, particularly in the localization of radio frequency sources. His innovative approach has led to the development of a unique system that enhances the accuracy of RF source detection.
Latest Patents
Josiah Henry holds a patent for a "System to determine the location of a radio frequency source using radio frequency signal strength and related methods." This patent describes an RF localization system that determines the position of a radio frequency source of interest (RFSOI) relative to the RF localization system (RFLS). The RFLS comprises man-portable nodes that communicate through a self-organizing wide area network (WAN). Each node is equipped with a communications device and antenna elements oriented in cardinal directions. The control circuit within each node is designed to establish the WAN, capture received signal strength indicator (RSSI) values, and determine the position of the RFSOI. The system can transmit the determined position to a primary node or an external computing device for further processing.
Career Highlights
Josiah Henry is currently employed at Vorbeck Materials Corporation, where he continues to innovate and develop advanced technologies. His work focuses on enhancing communication systems and improving the efficiency of RF localization methods. His expertise in this area has positioned him as a valuable asset to his company and the industry.
Collaborations
Some of Josiah's coworkers include James A Turney and Jaclyn Scott. Their collaborative efforts contribute to the advancement of technology within Vorbeck Materials Corporation.
Conclusion
Josiah Henry's contributions to radio frequency localization technology demonstrate his innovative spirit and commitment to advancing communication systems. His patent reflects a significant step forward in the field, showcasing the potential for improved RF source detection.