CAJ | 학술논문

采用光谱阈值判别和纹理分析相结合的方法,提出一种基于树状判别结构的快速高准确度云检测算法,综合利用多个判别准则,确定图像中云层覆盖情况,与传统方法相比能够获得更高的分辨精确度.树状判别结构还能够在平均意义上显著提高算法运行效率.同时,提出了一种改进的分形维数计算方法,能够在不影响精确度的前提下,使算法的运行效率提高5倍左右,基本满足实时性的要求.所提出的云检测算法已在中巴地球资源卫星项目中实际应用,实际测试结果表明,该算法达到自动云检测的虚警概率小于5%,漏警概率小于10%的工程要求.
채용광보역치판별화문리분석상결합적방법,제출일충기우수상판별결구적쾌속고준학도운검측산법,종합이용다개판별준칙,학정도상중운층복개정황,여전통방법상비능구획득경고적분변정학도.수상판별결구환능구재평균의의상현저제고산법운행효솔.동시,제출료일충개진적분형유수계산방법,능구재불영향정학도적전제하,사산법적운행효솔제고5배좌우,기본만족실시성적요구.소제출적운검측산법이재중파지구자원위성항목중실제응용,실제측시결과표명,해산법체도자동운검측적허경개솔소우5%,루경개솔소우10%적공정요구.
The cloud cover is an important factor which lowers the remote sensing image quality, so real-time automatic cloud detection and effective rejection of high cloud coverage pictures are of prime importance. In this paper we proposed a high performance and high accuracy algorithm of cloud detection which combines two different analytical techniques: the spectrum threshold comparison and the texture analysis. These two approaches discriminate the image from different visions. A structure of the discrimination tree is proposed to improve the accuracy and to accelerate the detecting procedure, which defines the rule how to use these two methods properly. The cloud detection results gained by this algorithm are well satisfied. And the structure of the discrimination tree promotes the operating efficiency on average. We also proposed an advanced approach to calculate the fractal dimension value, which is about five times faster than the original approach. The cloud detection algorithm has been applied to the data processing system of China-Brazil Earth Resources Satellite-2B. The experimental results show that this algorithm can satisfy the demand of error rate: the false alarm rate is lower than 5% and the missed detection rate is lower than 10%.