摘要
在分析红外成像仿真系统研究现状的基础上,研究了典型红外小目标的模型和移动式滤波跟踪算法。依据飞行器内部构造及工艺材料,并结合空气动力学、物理学以及热辐射的相关理论,从蒙皮辐射、尾喷焰等方面建立了飞行器的红外辐射模型。针对数字微镜阵列(Digital Mirror Device,DMD)系统的特点,对模型进行了简化,提高了图像生成速度。最后利用基于数字微镜阵列的成像仿真系统平台对模型和算法进行了实验验证。实验结果表明,该方法具有图像清晰、信噪比高、生成速度快、管道存储时间小以及跟踪稳定等特点。
On the basis of analyzing the research status of infrared imaging simulation systems,the typical small infrared target models and moving filtering algorithms are analyzed.According to the inner structure and materials of an air vehicle and the related theory of aerodynamics,physics and heat radiation,an infrared radiation model of the air vehicle is established in the aspects of scarfskin,pout and plume.By using the characteristics of the Digital Mirror Device(DMD) system,the model is simplified and the image generation rate is improved.Finally,the model and the algorithm are demonstrated on the DMD imaging simulation system platform.The result shows that this method has the features of clear image,high signal-to-noise ratio,high image generation rate,short storage time and stable tracking etc..
出处
《红外》
CAS
2012年第1期33-37,共5页
Infrared
