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引用次数: 5
摘要
随着电子战在现代战争中的战略地位不断提高,雷达分选探测成为现代信息战的“眼睛”,发挥着重要作用。本文设计了一种新的脉冲雷达分选算法:基于密度的模糊c均值多中心重聚类(DFCMRC)雷达信号分选算法。该算法主要结合了基于密度的应用空间聚类与噪声(DBSCAN)聚类算法和模糊c均值(FCM)聚类算法的优点。本文还对DFCMRC算法的结构进行了优化,将随机生成初始中心点的算法改为CFSFDP (Clustering by Fast Search and Find of Density Peaks)算法。经过对比测试,DFCMRC算法的排序结果优于K-means算法、DBSCAN算法和FCM算法。此外,DFCMRC的成员等级描述比FCM的更有意义。加速优化后的DFCMRC算法可以减少一半以上的迭代,大大缩短了算法的计算时间。
Density-Based Fuzzy C-Means Multi-center Re-clustering Radar Signal Sorting Algorithm
As the improving strategic position of electronic warfare in modern warfare, radar sorting detection becomes the eye of modern information warfare and plays an important role in it. This paper designs a new pulse radar sorting algorithm: a Density-Based Fuzzy C-Means Multi-Center Re-Clustering (DFCMRC) radar signal sorting algorithm. This algorithm mainly combines the advantages of Density-Based Spatial Clustering of Applications with Noise (DBSCAN) clustering algorithm and Fuzzy C-means (FCM) clustering algorithm. This paper also optimizes the structure of the DFCMRC algorithm, which changes the algorithm that randomly generated the initial center point to the Clustering by Fast Search and Find of Density Peaks (CFSFDP) algorithm. After comparison tests, the DFCMRC algorithm sorting result is better than the K-means algorithm, the DBSCAN algorithm and the FCM algorithm. Also, the membership grade description of DFCMRC makes more sense than the FCM's. Accelerated optimized DFCMRC algorithm can reduce more than half iterations, which greatly shortens the algorithm calculation time.
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