摘要
目的通过简易的图像处理和目标检测方法,提高红外引信在复杂环境下的抗干扰能力。方法分析红外引信在复杂背景中的噪声类别,采用“密度–距离”空间方法与像素生长方法进行预处理和目标检测,赋予像素2种属性,并进行量化分析,确定灰度平坦区域中的红外候选目标,并通过像素生长方法筛选候选目标中的真实目标。结果计算在不同信噪比环境下算法的抗噪声干扰能力,当红外图像的SNR值在44.1~45.4时,算法检测效果理想。结论红外引信探测过程中的复杂背景和随机噪声都会降低图像质量,考虑到红外目标所占像素数少,极易受噪声影响,需要运用自适应简易算法提高检测准确性。该算法有良好的实时性和抗干扰能力,为红外引信在目标检测中的环境适应性提供了理论依据。
The paper intends to improve the anti-jamming ability of infrared fuze in acomplex environment through simple image processing and target detection methods. To analyze the noise class of infrared fuzes in complex back grounds, the "density-distance" spatial method and pixel growth method are used for preprocessing and target detection. The pixel is assigned with two properties, and under quantitative analysis to determine the infrared candidate target in the gray flat area, and the real target in the candidate target is screened by the pixel growth method. The anti-interference ability of the algorithm in different signal-to-noise ratio environments is calculated, and the object detection effect is ideal when the SNR value of the infrared image is between 44.1 to 45.4.The complex background and random noise in the infrared fuze detection process will reduce the image quality. Considering that the infrared target occupies a small number of pixels and is easily affected by noise, it is necessary to use an adaptive simple algorithm to improve detection accuracy. This algorithm has good real-time performance and anti-jamming ability, which provides a theoretical basis for the environmental adaptability of infrared fuze in target detection.
作者
张骢
权康男
岳明凯
韩自强
ZHANG Cong;QUAN Kang-nan;YUE Ming-kai;HAN Zi-qiang(School of Equipment Engineering,Shenyang Ligong University,Shenyang 110159,China)
出处
《装备环境工程》
CAS
2022年第11期48-53,共6页
Equipment Environmental Engineering
基金
辽宁省教育厅基本科研面上项目(LJKMZ20220605)。
关键词
红外目标
抗干扰
引信
环境适应性
密度–距离
像素生长法
infrared targets
anti-interference
fuze
environmental adaptability
density-distance
pixel growth method
