标签:svm mult_iclass opencv multi_dimension
最近,本人要做个小东西,使用SVM对8类三维数据进行分类,搜索网上,发现大伙讨论的都是二维数据的二分类问题,遂决定自己研究一番。本人首先参考了opencv的tutorial,这也是二维数据的二分类问题。然后通过学习研究,发现别有洞天,遂实现之前的目标。在这里将代码贴出来,这里实现了对三维数据进行三类划分,以供大家相互学习。
#include "stdafx.h" #include <iostream> #include <opencv2/core/core.hpp> #include <opencv2/highgui/highgui.hpp> #include <opencv2/ml/ml.hpp> using namespace cv; using namespace std; int main() { //--------------------- 1. Set up training data randomly --------------------------------------- Mat trainData(100, 3, CV_32FC1); Mat labels (100, 1, CV_32FC1); RNG rng(100); // Random value generation class // Generate random points for the class 1 Mat trainClass = trainData.rowRange(0, 40); // The x coordinate of the points is in [0, 0.4) Mat c = trainClass.colRange(0, 1); rng.fill(c, RNG::UNIFORM, Scalar(1), Scalar(0.4 * 100)); // The y coordinate of the points is in [0, 0.4) c = trainClass.colRange(1, 2); rng.fill(c, RNG::UNIFORM, Scalar(1), Scalar(0.4 * 100)); // The z coordinate of the points is in [0, 0.4) c = trainClass.colRange(2, 3); rng.fill(c, RNG::UNIFORM, Scalar(1), Scalar(0.4 * 100)); // Generate random points for the class 2 trainClass = trainData.rowRange(60, 100); // The x coordinate of the points is in [0.6, 1] c = trainClass.colRange(0, 1); rng.fill(c, RNG::UNIFORM, Scalar(0.6*100), Scalar(100)); // The y coordinate of the points is in [0.6, 1) c = trainClass.colRange(1, 2); rng.fill(c, RNG::UNIFORM, Scalar(0.6*100), Scalar(100)); // The z coordinate of the points is in [0.6, 1] c = trainClass.colRange(2, 3); rng.fill(c, RNG::UNIFORM, Scalar(0.6*100), Scalar(100)); // Generate random points for the classes 3 trainClass = trainData.rowRange( 40, 60); // The x coordinate of the points is in [0.4, 0.6) c = trainClass.colRange(0,1); rng.fill(c, RNG::UNIFORM, Scalar(0.4*100), Scalar(0.6*100)); // The y coordinate of the points is in [0.4, 0.6) c = trainClass.colRange(1,2); rng.fill(c, RNG::UNIFORM, Scalar(0.4*100), Scalar(0.6*100)); // The z coordinate of the points is in [0.4, 0.6) c = trainClass.colRange(2,3); rng.fill(c, RNG::UNIFORM, Scalar(0.4*100), Scalar(0.6*100)); //------------------------- Set up the labels for the classes --------------------------------- labels.rowRange( 0, 40).setTo(1); // Class 1 labels.rowRange(60, 100).setTo(2); // Class 2 labels.rowRange(40, 60).setTo(3); // Class 3 //------------------------ 2. Set up the support vector machines parameters -------------------- CvSVMParams params; params.svm_type = SVM::C_SVC; params.C = 0.1; params.kernel_type = SVM::LINEAR; params.term_crit = TermCriteria(CV_TERMCRIT_ITER, (int)1e7, 1e-6); //------------------------ 3. Train the svm ---------------------------------------------------- cout << "Starting training process" << endl; CvSVM svm; svm.train(trainData, labels, Mat(), Mat(), params); cout << "Finished training process" << endl; Mat sampleMat = (Mat_<float>(1,3) << 50, 50,10); float response = svm.predict(sampleMat); cout<<response<<endl; sampleMat = (Mat_<float>(1,3) << 50, 50,100); response = svm.predict(sampleMat); cout<<response<<endl; sampleMat = (Mat_<float>(1,3) << 50, 50,60); response = svm.predict(sampleMat); cout<<response<<endl; waitKey(0); }
标签:svm mult_iclass opencv multi_dimension
原文地址:http://blog.csdn.net/helei001/article/details/39801509