A distance statistics based method for 3d sonar point cloud image enhancement

1 . A distance statistics based method for 3D sonar point cloud image enhancement, comprising the following steps: (1) obtaining sonar data, and converting 3D sonar range image information corresponding to sonar data per frame into point cloud data in global coordinate; (2) using a kd-tree to search the point cloud data, and calculating Euclidean distance L ij between point P i and the nearest K point cloud data; wherein, value range of i and j is 1≤i≤N and 1≤j≤K respectively; N refers to the total quantity of point cloud data; (3) excluding point cloud data corresponding to mean value of L ij which do not match the certain Gaussian distribution, and complete enhancement of 3D sonar point cloud image. 2 . The distance statistics based method for 3D sonar point cloud image enhancement according to claim 1 , characterized in that specific procedures of said Step (2) are stated as follows: (2-1) establishing a kd-tree for N point cloud data, and use such kd-tree to search each point P i in the cloud data; (2-2) for each point P i , using K-NN to search its K nearest point cloud data, and calculating the Euclidean distance L ij between point cloud data P i and K nearest point cloud data. 3 . The distance statistics based method for 3D sonar point cloud image enhancement according to claim 2 , characterized in that specific procedures of the Step (3) are stated as follows: (3-1) calculating mean value L i of K Euclidean distance L ij for point P i ; (3-2) calculating mean value μ and standard deviation σ for N elements in L i ; (3-3) estimating with mean value of μ and standard deviation of σ for all L i ; selecting point cloud data whose value of corresponding L i element is outside of a--b as outlier; remove the outlier to complete enhancement of 3D sonar point cloud image; wherein, a=μ−α×σ and b=μ+α×σ; α is a real number, referring as expansion coefficient. 4 . A distance statistics based method for 3D sonar point cloud image enhancement, comprising the following steps: (1′) obtaining sonar data, and convert 3D sonar range image information corresponding to sonar data per frame into point cloud data in global coordinate; (2′) using a kd-tree to search the point cloud data, and calculate Euclidean distance L ij between point P i and all other point cloud data within its neighborhood in distance r; wherein, value range of i and j is 1≤i≤N and 1≤j≤M i respectively; N refers to the total quantity of point cloud data; M i refers to the quantity of point cloud data within neighborhood in distance r of point cloud data P i ; (3′) excluding point cloud data corresponding to mean value of L ij which do not match the certain Gaussian distribution, and complete enhancement of 3D sonar point cloud image. 5 . The distance statistics based method for 3D sonar point cloud image enhancement according to claim 4 , characterized in that specific procedures of said Step (2′) are stated as follows: (2-1′) establishing a kd-tree for N point cloud data, and use such kd-tree to search each point P i in the cloud data; (2-2′) for each point P i , searching all point cloud data within neighborhood in distance r, and calculating the Euclidean distance L ij between point cloud data P i and all point cloud data within its neighborhood in distance r. 6 . The distance statistics based method for 3D sonar point cloud image enhancement according to claim 4 , characterized in that specific procedures of the Step (3′) are stated as follows: (3-1′) calculating mean value L i ′ of M i 1 Euclidean distance L ij for point cloud data P i ; (3-2′) calculating mean value μ′ and standard deviation σ′ for N elements in L i ; (3-3′) for all L i ′, calculating means value of μ′ and standard deviation of σ′ for Gaussian distribution statistics; selecting point cloud data whose value of corresponding L i element is outside of a′--b′ as outlier; remove the outlier to complete enhancement of 3D sonar point cloud image; wherein, a′=μ′−α×σ′ and b′=μ′+α×σ′; α is a real number, referring as expansion coefficient.