Harpreet Singh

Title: Harpreet Singh: Innovator in Target Detection Technologies

Introduction

Harpreet Singh is a notable inventor based in Detroit, MI (US), recognized for his contributions to the field of target detection technologies. He holds 2 patents that showcase his innovative approaches to enhancing the visibility and detection of targets in complex backgrounds.

Latest Patents

One of Harpreet Singh's latest patents is a fuzzy logic technique designed to determine search time and the probability of detection for targets of interest in background scenes. This method involves creating a set of images of the target within a background and measuring selected input variables, such as target size and luminance. By applying fuzzy rules and membership functions, the method produces multiple values for the output variable, which are then defuzzified to yield a clear result. This innovation can assist in evaluating target designs effectively.

Another significant patent focuses on determining the probability of target detection in visually complex scenes. This method divides infrared-imaged scenes into target and background blocks, applying various metrics to derive clutter values. Factor analysis is utilized to assess these values, ultimately aiding in the selection of the optimum scene for target detection.

Career Highlights

Harpreet Singh is currently employed by the US Government as represented by the Secretary of the Army. His work involves developing advanced methodologies that enhance the effectiveness of target detection in various operational scenarios.

Collaborations

Throughout his career, Harpreet has collaborated with esteemed colleagues, including Thomas J. Meitzler and Euijung Sohn, who contribute to the innovative projects he undertakes.

Conclusion

Harpreet Singh's work in target detection technologies exemplifies the impact of innovative thinking in military applications. His patents reflect a commitment to improving detection methods, which can significantly enhance operational effectiveness.