Multitarget identification method for dual‐plane detection based on data fusion and correlation analysis

Abstract

AbstractThe light screen that tests the velocity of a projectile is often affected by indoor illumination changes and interference caused by air disturbance of the projectile, affecting the identification of the projectile target signals by the test system. To solve these problems, based on the detection light screen formed by the array infrared diodes and the array photosensitive tube, this article proposes the method of identifying multiprojectile targets in the dual‐plane detection of data fusion and related analysis. Use the amplitude of signals generated by the projectile moving in the screen and the time width of valid signals as the diagnosis basis to build a multiprojectile signal identification model for a single plane detection light screen. Using the similarity of projectile passing through two light screens, a matching algorithm for the two‐plane detection screen projectile signal is established. By collecting the multiprojectile signals of the dual‐plane detection light screen and following the single detection light screen data fusion model, the velocity measuring system can identify the projectile signals of the dual‐plane detection screen. Based on the fusion and identification result of each detection plane and the established match algorithm related to the shot signal, the test result of the test system with interference is obtained. The result verifies the correctness of the established model and algorithm.