Ejemplo n.º 1
1
        public void Save()
        {
            topLayerSVM = new SVM();
            SVMParams p = new SVMParams();
            p.KernelType = SVM_KERNEL_TYPE.LINEAR;
            p.SVMType = SVM_TYPE.C_SVC;
            p.C = 1;
            p.TermCrit = new MCvTermCriteria(100, 0.00001);
            topLayerSVM.Train(trainingDescriptors, labels, null, null, p);
            IFormatter formatter = new BinaryFormatter();
            Stream fs = File.OpenWrite(directory + "obj\\dic.xml");
            formatter.Serialize(fs, topLayerDic);

            fs.Dispose();
            topLayerSVM.Save(directory + "obj\\svm.xml");
        }
Ejemplo n.º 2
0
        //SVMParams _parameters
        public SVMClassifier()
        {
            model = new SVM();

            SVMParams p = new SVMParams();
            p.KernelType = Emgu.CV.ML.MlEnum.SVM_KERNEL_TYPE.LINEAR;
            p.SVMType = Emgu.CV.ML.MlEnum.SVM_TYPE.C_SVC;
            p.C = 1;
            p.TermCrit = new MCvTermCriteria(100, 0.00001);

            parameters = p;
        }
Ejemplo n.º 3
0
 /// <summary>
 /// Train the SVM model with the specific paramters
 /// </summary>
 /// <param name="trainData">The training data.</param>
 /// <param name="responses">The response for the training data.</param>
 /// <param name="varIdx">Can be null if not needed. When specified, identifies variables (features) of interest. It is a Matrix&lt;int&gt; of nx1</param>
 /// <param name="sampleIdx">Can be null if not needed. When specified, identifies samples of interest. It is a Matrix&lt;int&gt; of nx1</param>
 /// <param name="parameters">The parameters for SVM</param>
 /// <returns></returns>
 public bool Train(
     Matrix <float> trainData,
     Matrix <float> responses,
     Matrix <Byte> varIdx,
     Matrix <Byte> sampleIdx,
     SVMParams parameters)
 {
     return(MlInvoke.CvSVMTrain(
                _ptr,
                trainData.Ptr,
                responses.Ptr,
                varIdx == null ? IntPtr.Zero: varIdx.Ptr,
                sampleIdx == null ? IntPtr.Zero : varIdx.Ptr,
                parameters.MCvSVMParams));
 }
Ejemplo n.º 4
0
 /// <summary>
 /// Train the SVM model with the specific paramters
 /// </summary>
 /// <param name="trainData">The training data.</param>
 /// <param name="responses">The response for the training data.</param>
 /// <param name="varIdx">Can be null if not needed. When specified, identifies variables (features) of interest. It is a Matrix&lt;int&gt; of nx1</param>
 /// <param name="sampleIdx">Can be null if not needed. When specified, identifies samples of interest. It is a Matrix&lt;int&gt; of nx1</param>
 /// <param name="parameters">The parameters for SVM</param>
 /// <returns></returns>
 public bool Train(
    Matrix<float> trainData,
    Matrix<float> responses,
    Matrix<int> varIdx,
    Matrix<int> sampleIdx,
    SVMParams parameters)
 {
    return MlInvoke.CvSVMTrain(
       _ptr, 
       trainData.Ptr, 
       responses.Ptr, 
       varIdx == null ? IntPtr.Zero: varIdx.Ptr, 
       sampleIdx == null ? IntPtr.Zero : varIdx.Ptr, 
       parameters.MCvSVMParams);
 }
Ejemplo n.º 5
0
        public SupportVectorMachine(Matrix<float> trainData, Matrix<float> trainClasses)
        {
            {

                SVMParams p = new SVMParams();
                p.KernelType = Emgu.CV.ML.MlEnum.SVM_KERNEL_TYPE.LINEAR;
                p.SVMType = Emgu.CV.ML.MlEnum.SVM_TYPE.C_SVC;
                p.C = 1;
                p.TermCrit = new MCvTermCriteria(100, 0.00001);

                bool trained1 = model1.Train(trainData, trainClasses, null, null, p);
                //bool trained2 = model2.TrainAuto(trainData, trainClasses, null, null, p.MCvSVMParams, 5);

            }
        }
Ejemplo n.º 6
0
        public ShapeClassifier()
        {
            isTrained = false;

            // SVM settings
            // TODO: Play with SVM parameters
            SvmParameters = new SVMParams();
            SvmParameters.SVMType = Emgu.CV.ML.MlEnum.SVM_TYPE.C_SVC;
            SvmParameters.KernelType = Emgu.CV.ML.MlEnum.SVM_KERNEL_TYPE.POLY;
            SvmParameters.Gamma = 3;
            SvmParameters.Degree = 3;
            SvmParameters.C = 1;
            SvmParameters.TermCrit = new MCvTermCriteria(100, 0.00001);

            // Obtain the number of colour classes
            int numSignColours = Enum.GetValues(typeof(SignColour)).Length;

            // Create an empty SVM model for each colour
            svms = new ShapeSvm[numSignColours];
            for (int i = 0; i < numSignColours; ++i)
            {
                svms[i].model = new SVM();
                svms[i].isTrained = false;
                svms[i].shapes = new List<SignShape>();
            }

            // Define which shapes are used for each sign colour
            svms[(int)SignColour.RED].shapes.AddRange(
                new SignShape[] {
                    SignShape.Garbage,
                    SignShape.Circle,
                    SignShape.Octagon,
                    SignShape.TriangleUp,
                    SignShape.TriangleDown
                }
            );

            svms[(int)SignColour.BLUE].shapes.AddRange(
                new SignShape[] {
                    SignShape.Garbage,
                    SignShape.Circle,
                    SignShape.Rectangle
                }
            );
        }
Ejemplo n.º 7
0
        private void button7_Click(object sender, EventArgs e)
        {
            ///////////////////////////////////////////// Test ///////////////////////////////////////
            //Create a matrix
            //Matrix<Byte> matrix1 = new Matrix<Byte>(10, 10);
            //Byte element = 0;
            ////Set the elements
            //for (int i = 0; i < 10; i++)
            //{
            //    for (int j = 0; j < 10; j++)
            //    {
            //        matrix1.Data[i, j] = 1;
            //        //matrix1.Data[i, j] = element;
            //        element++;
            //    }
            //}

            //int WW = matrix1.Cols;
            //int HH = matrix1.Rows;
            ///////////////////////////////////////////// Test ///////////////////////////////////////
            int W = Train_I.Cols;
            int H = Train_I.Rows;
            int rW = (mW - 1) / 2;
            int rH = (mH - 1) / 2;
            double pp = 0;
            double ee = 0;
            int ind = 0;
            int count;
            int maskCenter_H_start = rH + 1;
            int maskCenter_W_start = rW + 1;
            int maskCenter_H_end = H - rH;
            int maskCenter_W_end = W - rW;

            double[] fVave = new double[ ( maskCenter_H_end - maskCenter_H_start) * (maskCenter_W_end - maskCenter_W_start) ];
            double[] fVstd = new double[( maskCenter_H_end - maskCenter_H_start) * (maskCenter_W_end - maskCenter_W_start) ];
            double[] fVentropy = new double[( maskCenter_H_end - maskCenter_H_start) * (maskCenter_W_end - maskCenter_W_start) ];
            classV = new Matrix<float>( (maskCenter_H_end - maskCenter_H_start) * (maskCenter_W_end - maskCenter_W_start), 1);
            
            
            // Mask scan over the whole image  "gR_R_Picked_Map"
            for (int i = maskCenter_H_start; i < maskCenter_H_end; i++)
            {
                for (int j = maskCenter_W_start; j < maskCenter_W_end; j++)
                {
                    double sum = 0;
                    double ave = 0;
                    double sumDiff = 0;
                    double std = 0;
                    entropy = 0;
                    count = 0;
                    // initial value all 0, since every mask should count independently
                    for (int k = 0; k < mH; k++)
                    {
                        for (int l = 0; l < mW; l++)
                        {                         
                            int mask_x = j - rW + l - 1;
                            int mask_y = i - rH + k - 1;
                            sum = sum + gR_R_Picked_Map[ mask_y, mask_x ];         // Bug????
                            //sum = sum + matrix1[i - rH + k - 1  , j - rW + l - 1  ]; // test 

                            // judge mask is PART of TREE or NOT
                            if (Class_I.Data[ mask_y,   mask_x , 0] == 1)
                            {
                                count ++;
                            }
                        }
                    }  // end of mask
                    // To detect the binary values in the mask and record it in classV
                    float maskSampleCount = mH * mW;
                    float mask_plant_percent = (count /maskSampleCount);
                    if (  mask_plant_percent > 0.7 )
                    {
                        classV[ind, 0] = 1;
                    }
                    else
                    {
                        classV[ind, 0] = 0;
                    }
                    // Ave                          
                    ave = sum / (maskSampleCount);
                    // StandardDeviation
                    for (int k = 0; k < mH; k++)
                    {
                        for (int l = 0; l < mW; l++)
                        {
                            int mask_x = j - rW + l - 1;
                            int mask_y = i - rH + k - 1;
                            sumDiff = sumDiff + Math.Pow((gR_R_Picked_Map[ mask_y, mask_x] - ave), 2);
                            // sumDiff = sumDiff + Math.Pow((matrix1[i - rH + k - 1, j - rW + l - 1] - ave), 2); //test
                        }
                    }
                    std = Math.Sqrt(sumDiff / (maskSampleCount - 1));
                    // Entropy
                    for (int k = 1; k < mH; k++)
                    {
                        for (int l = 1; l < mW; l++)
                        {
                            int mask_x = j - rW + l - 1;
                            int mask_y = i - rH + k - 1;
                            pp = gR_R_Picked_Map[mask_y, mask_x] / sum;
                            //p = matrix1[i - rH + k - 1, j - rW + l - 1] / sum;
                            if (pp > 0) // Log p, p > 0
                            {
                                ee = Math.Log(pp);
                            }
                            else
                            {
                                ee = 0;
                            }
                            //System.Console.WriteLine("-");
                            //System.Console.WriteLine(p);
                            //System.Console.WriteLine(ee);
                            //System.Console.WriteLine("-");
                            entropy = entropy + (-(pp * ee));
                        }
                    }
                    fVave[ind] = ave;
                    fVstd[ind] = std;
                    fVentropy[ind] = entropy;
                    ind++;
                } // for i 
            } // for j      

            trainData_all = new Matrix<float>(ind, 3);
            for (int i = 0; i < ind; i++)
            {
                trainData_all.Data[i, 0] = (float)fVave[i];
                trainData_all.Data[i, 1] = (float)fVstd[i];
                trainData_all.Data[i, 2] = (float)fVentropy[i];
            }


            using (Emgu.CV.ML.SVM model = new Emgu.CV.ML.SVM())
            {
                SVMParams p = new SVMParams();
                /* p.KernelType = Emgu.CV.ML.MlEnum.SVM_KERNEL_TYPE.LINEAR;
                 p.SVMType = Emgu.CV.ML.MlEnum.SVM_TYPE.C_SVC;
                 p.C = 1;
                 p.TermCrit = new MCvTermCriteria(100, 0.00001);*/
                p.KernelType = Emgu.CV.ML.MlEnum.SVM_KERNEL_TYPE.RBF;
                p.SVMType = Emgu.CV.ML.MlEnum.SVM_TYPE.C_SVC;
                p.Gamma = 0.1;
                p.Coef0 = 0;
                p.Degree = 2;
                p.C = 1;
                p.TermCrit = new MCvTermCriteria(500, 0.00001); //迭代的終止準則,最大迭代次數500次,結果的精確性

                //bool trained = model.Train(trainData, trainClasses, null, null, p);
                bool trained = model.TrainAuto(trainData_all, classV, null, null, p.MCvSVMParams, 5);
                model.Save(@"D:\Code\Data\train_func.xml");
            }

            System.Console.WriteLine(" END OF button7_Click Masking ");
            ///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
            Image<Bgr, byte> predict_image = Train_I2.Clone();
            using (Emgu.CV.ML.SVM model = new Emgu.CV.ML.SVM())
            {
                model.Load(@"D:\Code\Data\train_func.xml");
                int ind_predict = 0;

                for (int i = maskCenter_H_start; i < maskCenter_H_end; i++)
                    for (int j = maskCenter_W_start; j < maskCenter_W_end; j++)
                    {                     
                        Matrix<float> feature_test = TakeRow(trainData_all.Data, ind_predict);
                        //Matrix<float> feature_test = trainData_all.GetRow( ind_predict ) ;
                      // System.Console.WriteLine(feature_test);
                        float predict_class = model.Predict( feature_test );
                        if (predict_class == 1)
                        {
                            for (int k = 0; k < mH; k++)
                                for (int l = 0; l < mW; l++)
                                {
                                    int mask_x = j - rW + l  -1;
                                    int mask_y = i - rH + k  -1;
                                    predict_image.Data[ mask_y, mask_x , 0] = 255;
                                    predict_image.Data[mask_y , mask_x , 2] = 255;
                                }
                        }
                        ind_predict++;
                       // System.Console.WriteLine(predict_class);
                    }  // end of all

                //String name2 = name.Insert(name.Length - 4, "_predict");
                String name3 = "predict";
                predict_image.Save(@"D:\Code\Data\predict.bmp");
                pictureBox9.Image = Image.FromFile(@"D:\Code\Data\predict.bmp");
                // Image<Bgr, byte> predict_image = Train_I2.Clone();
                System.Console.WriteLine(" END OF Predict ");
            }
        }
Ejemplo n.º 8
0
        static void Main(string[] args)
        {
            int trainSampleCount = 0;
            Image<Bgr, Byte> img = new Image<Bgr, byte>(500, 500);

            //conversion of CSV to gesture variables
            List<Gesture> gestureListClass1 = csvToGestureList(@"C:\Users\Dan\Desktop\thesis data\testEB-3-20.csv");
            List<Gesture> gestureListClass2 = csvToGestureList(@"C:\Users\Dan\Desktop\thesis data\testSNC-3-20.csv");

            trainSampleCount = (gestureListClass1.Count) + (gestureListClass2.Count); //set the sample count to the number of gestures we have available

            //create relevant matrices based on size of the gestureList
            Matrix<float> sample = new Matrix<float>(1, 2); //a sample has 2 columns because of 2 features
            Matrix<float> trainTestData = new Matrix<float>(trainSampleCount, 2);
            Matrix<float> trainTestClasses = new Matrix<float>(trainSampleCount, 1);

            //GESTURE MATH INCOMING
            foreach (Gesture g in gestureListClass1)
            {
                g.runMetrics();
            }

            foreach (Gesture g in gestureListClass2)
            {
                g.runMetrics();
            }

            #region Generate the training data and classes

            //fill first set of data
            for (int i = 0; i < gestureListClass1.Count; i++)
            {
                double[] gMetrics = (gestureListClass1[i].returnMetrics()).ToArray();

                /*order of values
                 * list[0] - xyRatio
                 * list[1] - totalGestureTime
                 */
                trainTestData[i, 0] = ((float)gMetrics[0])*150;
                trainTestData[i, 1] = ((float)gMetrics[1])/4;
            }

            Matrix<float> trainTestData1 = trainTestData.GetRows(0, gestureListClass1.Count, 1);

            for (int j = 0; j < gestureListClass2.Count; j++)
            {
                double[] gMetrics = (gestureListClass2[j].returnMetrics()).ToArray();

                trainTestData[(j + gestureListClass1.Count), 0] = (float)gMetrics[0] * 150;
                trainTestData[(j + gestureListClass1.Count), 1] = ((float)gMetrics[1])/4;
            }

            Matrix<float> trainTestData2 = trainTestData.GetRows(gestureListClass1.Count, trainSampleCount, 1);

            Matrix<float> trainTestClasses1 = trainTestClasses.GetRows(0, gestureListClass1.Count, 1);
            trainTestClasses1.SetValue(1);
            Matrix<float> trainTestClasses2 = trainTestClasses.GetRows(gestureListClass1.Count, trainSampleCount, 1);
            trainTestClasses2.SetValue(2);
            #endregion

            using (SVM model = new SVM())
            {
                SVMParams p = new SVMParams();
                p.KernelType = Emgu.CV.ML.MlEnum.SVM_KERNEL_TYPE.LINEAR;
                p.SVMType = Emgu.CV.ML.MlEnum.SVM_TYPE.C_SVC;
                //p.Gamma = 0.1;
                p.C = 10;
                p.TermCrit = new MCvTermCriteria(100, 0.00001);

                //bool trained = model.Train(trainTestData, trainTestClasses, null, null, p);
                bool trained = model.TrainAuto(trainTestData, trainTestClasses, null, null, p.MCvSVMParams, 5);

                for (int i = 0; i < img.Height; i++)
                {
                    for (int j = 0; j < img.Width; j++)
                    {
                        sample.Data[0, 0] = j;
                        sample.Data[0, 1] = i;

                        float response = model.Predict(sample);

                        img[i, j] =
                           response == 1 ? new Bgr(90, 0, 0) :
                           new Bgr(0, 0, 90);
                           //response == 2 ? new Bgr(0, 90, 0) :
                    }
                }

                int c = model.GetSupportVectorCount();
                for (int i = 0; i < c; i++)
                {
                    float[] v = model.GetSupportVector(i);
                    PointF p1 = new PointF(v[0], v[1]);
                    img.Draw(new CircleF(p1, 4), new Bgr(255, 255, 128), 2);
                }
            }

            // display the original training samples
            for (int i = 0; i < (trainSampleCount / 2); i++)
            {
                if (i < trainTestData1.Rows)
                {
                    PointF p1 = new PointF((trainTestData1[i, 0]), (trainTestData1[i, 1]));
                    img.Draw(new CircleF(p1, 2.0f), new Bgr(255, 100, 100), -1);
                }

                if (i < trainTestData2.Rows)
                {
                    PointF p2 = new PointF((trainTestData2[i, 0]), (trainTestData2[i, 1]));
                    img.Draw(new CircleF(p2, 2.0f), new Bgr(100, 100, 255), -1);
                }
            }

            Emgu.CV.UI.ImageViewer.Show(img);
        }
Ejemplo n.º 9
0
        private void button1_Click(object sender, EventArgs e)
        {

            int trainSampleCount = 150;
            int sigma = 60;

            #region Generate the training data and classes

            Matrix<float> trainData = new Matrix<float>(trainSampleCount, 2);
            Matrix<float> trainClasses = new Matrix<float>(trainSampleCount, 1);

            Image<Bgr, Byte> img = new Image<Bgr, byte>(500, 500);

            Matrix<float> sample = new Matrix<float>(1, 2);

            Matrix<float> trainData1 = trainData.GetRows(0, trainSampleCount / 3, 1);
            trainData1.GetCols(0, 1).SetRandNormal(new MCvScalar(100), new MCvScalar(sigma));
            trainData1.GetCols(1, 2).SetRandNormal(new MCvScalar(300), new MCvScalar(sigma));

            Matrix<float> trainData2 = trainData.GetRows(trainSampleCount / 3, 2 * trainSampleCount / 3, 1);
            trainData2.SetRandNormal(new MCvScalar(400), new MCvScalar(sigma));

            Matrix<float> trainData3 = trainData.GetRows(2 * trainSampleCount / 3, trainSampleCount, 1);
            trainData3.GetCols(0, 1).SetRandNormal(new MCvScalar(300), new MCvScalar(sigma));
            trainData3.GetCols(1, 2).SetRandNormal(new MCvScalar(100), new MCvScalar(sigma));

            Matrix<float> trainClasses1 = trainClasses.GetRows(0, trainSampleCount / 3, 1);
            trainClasses1.SetValue(1);
            Matrix<float> trainClasses2 = trainClasses.GetRows(trainSampleCount / 3, 2 * trainSampleCount / 3, 1);
            trainClasses2.SetValue(2);
            Matrix<float> trainClasses3 = trainClasses.GetRows(2 * trainSampleCount / 3, trainSampleCount, 1);
            trainClasses3.SetValue(3);

            #endregion

            using (SVM model = new SVM())
            {
                SVMParams p = new SVMParams();
                p.KernelType = Emgu.CV.ML.MlEnum.SVM_KERNEL_TYPE.LINEAR;
                p.SVMType = Emgu.CV.ML.MlEnum.SVM_TYPE.C_SVC;
                p.C = 1;
                p.TermCrit = new MCvTermCriteria(100, 0.00001);

                //bool trained = model.Train(trainData, trainClasses, null, null, p);
                bool trained = model.TrainAuto(trainData, trainClasses, null, null, p.MCvSVMParams, 5);

                for (int i = 0; i < img.Height; i++)
                {
                    for (int j = 0; j < img.Width; j++)
                    {
                        sample.Data[0, 0] = j;
                        sample.Data[0, 1] = i;

                        float response = model.Predict(sample);

                        img[i, j] =
                           response == 1 ? new Bgr(90, 0, 0) :
                           response == 2 ? new Bgr(0, 90, 0) :
                           new Bgr(0, 0, 90);
                    }
                }

                int c = model.GetSupportVectorCount();
                for (int i = 0; i < c; i++)
                {
                    float[] v = model.GetSupportVector(i);
                    PointF p1 = new PointF(v[0], v[1]);
                    img.Draw(new CircleF(p1, 4), new Bgr(128, 128, 128), 2);
                }
            }

            // display the original training samples
            for (int i = 0; i < (trainSampleCount / 3); i++)
            {
                PointF p1 = new PointF(trainData1[i, 0], trainData1[i, 1]);
                img.Draw(new CircleF(p1, 2.0f), new Bgr(255, 100, 100), -1);
                PointF p2 = new PointF(trainData2[i, 0], trainData2[i, 1]);
                img.Draw(new CircleF(p2, 2.0f), new Bgr(100, 255, 100), -1);
                PointF p3 = new PointF(trainData3[i, 0], trainData3[i, 1]);
                img.Draw(new CircleF(p3, 2.0f), new Bgr(100, 100, 255), -1);
            }
            img.Save(@"D:\Code\svm.bmp");
           // Emgu.CV.UI.ImageViewer.Show(img);
            pictureBox1.Image = Image.FromFile(@"D:\Code\svm.bmp");

        }
Ejemplo n.º 10
0
        private void button2_Click(object sender, EventArgs e)
        {
            folderBrowserDialog1.SelectedPath = @"D:\Code\Data";
            try
            {
                if (folderBrowserDialog1.ShowDialog() == DialogResult.OK)
                {
                    String[] files = System.IO.Directory.GetFiles(folderBrowserDialog1.SelectedPath);
                    if (trainData_all != null)
                    {
                        trainData_all.Dispose(); trainData_all = null;
                    }
                    foreach (String name in files)
                    {
                        if (name.Contains("_class"))
                        {
                            if (Class_I != null)
                            {
                                Class_I.Dispose(); Class_I = null;
                            }
                            if (Train_I != null)
                            {
                                Train_I.Dispose(); Train_I = null;
                            }
                            //////////
                            String name2 = name.Replace("_class", "");
                            name2 = name2.Replace("bmp", "tif");
                            if (files.Contains(name2))
                            {
                                Class_I = new Image<Bgr, Byte>(name).Resize(scale, Emgu.CV.CvEnum.INTER.CV_INTER_LINEAR);  //////類別
                                Train_I = new Image<Bgr, Byte>(name2).Resize(scale, Emgu.CV.CvEnum.INTER.CV_INTER_LINEAR); //////原影像
                                Cal_features(); 
                            }
                        }
                    }
                    ///////SVM
                    using (Emgu.CV.ML.SVM model = new Emgu.CV.ML.SVM())
                    {
                        SVMParams p = new SVMParams();
                        /* p.KernelType = Emgu.CV.ML.MlEnum.SVM_KERNEL_TYPE.LINEAR;
                         p.SVMType = Emgu.CV.ML.MlEnum.SVM_TYPE.C_SVC;
                         p.C = 1;
                         p.TermCrit = new MCvTermCriteria(100, 0.00001);*/
                        p.KernelType = Emgu.CV.ML.MlEnum.SVM_KERNEL_TYPE.RBF;
                        p.SVMType = Emgu.CV.ML.MlEnum.SVM_TYPE.C_SVC;
                        p.Gamma = 0.1;
                        p.Coef0 = 0;
                        p.Degree = 2;
                        p.C = 1;
                        p.TermCrit = new MCvTermCriteria(500, 0.00001);

                        //bool trained = model.Train(trainData, trainClasses, null, null, p);
                        bool trained = model.TrainAuto(trainData_all, trainClasses_all, null, null, p.MCvSVMParams, 5);
                        model.Save(@"D:\Code\Data\train_func.xml");
                    }
                }
            }
            catch
            {
                MessageBox.Show("讀取錯誤!");
            }
        } // end of button2
Ejemplo n.º 11
0
        public void TrainEach(string dir)
        {
            directory = dir;
            foreach (FileInfo file in new DirectoryInfo(dir).GetFiles())
            {
                SecondLayerNum++;
            }

            labels = new Matrix<float>(SecondLayerNum, 1);
            trainingDescriptors = new Matrix<float>(SecondLayerNum, classNum);
            foreach (FileInfo file in new DirectoryInfo(dir).GetFiles())
            {
                Extract(new Image<Bgr, byte>(file.FullName));
            }
            MakeDic();
            if (SecondLayerDic == null) throw new Exception("!!!");
            j = 0;

            foreach (FileInfo file in new DirectoryInfo(dir).GetFiles())
            {
                MakeDescriptors(new Image<Bgr, byte>(file.FullName));
            }
            Console.WriteLine();
            SecondLayerSVM = new SVM();
            SVMParams p = new SVMParams();
            p.KernelType = SVM_KERNEL_TYPE.LINEAR;
            p.SVMType = SVM_TYPE.C_SVC;
            p.C = 1;
            p.TermCrit = new MCvTermCriteria(100, 0.00001);
            SecondLayerSVM.Train(trainingDescriptors, labels, null, null, p);

            IFormatter formatter = new BinaryFormatter();
            Stream fs = File.OpenWrite(directory + "\\obj\\dic.xml");
            formatter.Serialize(fs, SecondLayerDic);

            fs.Dispose();
            SecondLayerSVM.Save(directory + "\\obj\\svm.xml");
        }
Ejemplo n.º 12
0
        private Image<Bgr, Byte> svm()
        {
            Stopwatch timer = new Stopwatch();
            timer.Start();
            int trainSampleCount = 150;
            int sigma = 60;

            #region Generate the training data and classes

            Matrix<float> trainData = new Matrix<float>(trainSampleCount, 2);
            Matrix<float> trainClasses = new Matrix<float>(trainSampleCount, 1);

            Image<Bgr, Byte> img = new Image<Bgr, byte>(500, 500);

            Matrix<float> sample = new Matrix<float>(1, 2);

            Matrix<float> trainData1 = trainData.GetRows(0, trainSampleCount / 3, 1);
            trainData1.GetCols(0, 1).SetRandNormal(new MCvScalar(100), new MCvScalar(sigma));
            trainData1.GetCols(1, 2).SetRandNormal(new MCvScalar(300), new MCvScalar(sigma));

            Matrix<float> trainData2 = trainData.GetRows(trainSampleCount / 3, 2 * trainSampleCount / 3, 1);
            trainData2.SetRandNormal(new MCvScalar(400), new MCvScalar(sigma));

            Matrix<float> trainData3 = trainData.GetRows(2 * trainSampleCount / 3, trainSampleCount, 1);
            trainData3.GetCols(0, 1).SetRandNormal(new MCvScalar(300), new MCvScalar(sigma));
            trainData3.GetCols(1, 2).SetRandNormal(new MCvScalar(100), new MCvScalar(sigma));

            Matrix<float> trainClasses1 = trainClasses.GetRows(0, trainSampleCount / 3, 1);
            trainClasses1.SetValue(1);
            Matrix<float> trainClasses2 = trainClasses.GetRows(trainSampleCount / 3, 2 * trainSampleCount / 3, 1);
            trainClasses2.SetValue(2);
            Matrix<float> trainClasses3 = trainClasses.GetRows(2 * trainSampleCount / 3, trainSampleCount, 1);
            trainClasses3.SetValue(3);

            #endregion

            timer.Stop();
            MessageBox.Show("生成" + timer.ElapsedMilliseconds + "ms");
            timer.Reset();
            timer.Start();

            using (SVM model = new SVM()) {
                SVMParams p = new SVMParams();
                p.KernelType = Emgu.CV.ML.MlEnum.SVM_KERNEL_TYPE.LINEAR;
                p.SVMType = Emgu.CV.ML.MlEnum.SVM_TYPE.C_SVC;
                p.C = 1;
                p.TermCrit = new MCvTermCriteria(100, 0.00001);

                //model.Load(@"D:\Play Data\训练数据");
                //bool trained = model.Train(trainData, trainClasses, null, null, p);
                bool trained = model.TrainAuto(trainData, trainClasses, null, null, p.MCvSVMParams, 5);
                timer.Stop();
                MessageBox.Show("训练" + timer.ElapsedMilliseconds + "ms");
                timer.Reset();
                timer.Start();

                for (int i = 0; i < img.Height; i++) {
                    for (int j = 0; j < img.Width; j++) {
                        sample.Data[0, 0] = j;
                        sample.Data[0, 1] = i;

                        //float response = model.Predict(sample);

                        //img[i, j] =
                        //   response == 1 ? new Bgr(90, 0, 0) :
                        //   response == 2 ? new Bgr(0, 90, 0) :
                        //   new Bgr(0, 0, 90);
                    }
                }
                //model.Save(@"D:\Play Data\训练数据");

                timer.Stop();
                MessageBox.Show("染色" + timer.ElapsedMilliseconds + "ms");
                timer.Reset();
                timer.Start();
                int c = model.GetSupportVectorCount();
                for (int i = 0; i < c; i++) {
                    float[] v = model.GetSupportVector(i);
                    PointF p1 = new PointF(v[0], v[1]);
                    img.Draw(new CircleF(p1, 4), new Bgr(128, 128, 128), 2);
                }
                timer.Stop();
                MessageBox.Show("画圈" + timer.ElapsedMilliseconds + "ms");
                timer.Reset();
                timer.Start();
            }

            // display the original training samples
            for (int i = 0; i < (trainSampleCount / 3); i++) {
                PointF p1 = new PointF(trainData1[i, 0], trainData1[i, 1]);
                img.Draw(new CircleF(p1, 2.0f), new Bgr(255, 100, 100), -1);
                PointF p2 = new PointF(trainData2[i, 0], trainData2[i, 1]);
                img.Draw(new CircleF(p2, 2.0f), new Bgr(100, 255, 100), -1);
                PointF p3 = new PointF(trainData3[i, 0], trainData3[i, 1]);
                img.Draw(new CircleF(p3, 2.0f), new Bgr(100, 100, 255), -1);
            }
            timer.Stop();
            MessageBox.Show("标点" + timer.ElapsedMilliseconds + "ms");
            timer.Reset();
            timer.Start();

            return img;
        }
Ejemplo n.º 13
0
        public FeatureRecognizer()
        {
            isTrained = false;

            SVMParameters = new SVMParams();
            SVMParameters.SVMType = Emgu.CV.ML.MlEnum.SVM_TYPE.C_SVC;
            //SVMParameters.SVMType = Emgu.CV.ML.MlEnum.SVM_TYPE.NU_SVC;
            //p.KernelType = Emgu.CV.ML.MlEnum.SVM_KERNEL_TYPE.POLY;
            //SVMParameters.KernelType = Emgu.CV.ML.MlEnum.SVM_KERNEL_TYPE.LINEAR;
            SVMParameters.KernelType = Emgu.CV.ML.MlEnum.SVM_KERNEL_TYPE.POLY;
            //SVMParameters.KernelType = Emgu.CV.ML.MlEnum.SVM_KERNEL_TYPE.RBF;
            SVMParameters.Gamma = 3;
            SVMParameters.Degree = 3;
            SVMParameters.C = 1;
            SVMParameters.TermCrit = new MCvTermCriteria(100, 0.00001);
            //SVMParameters.Nu
            //SVMParameters.P
            //SVMParameters.Coef0 =
            paramsm = new MCvSVMParams();
            paramsm.svm_type = Emgu.CV.ML.MlEnum.SVM_TYPE.C_SVC;
            paramsm.kernel_type = Emgu.CV.ML.MlEnum.SVM_KERNEL_TYPE.LINEAR;
            paramsm.gamma = 2;
            paramsm.degree = 3;
            paramsm.C = 3;
            paramsm.term_crit = new MCvTermCriteria(100, 0.00001);
            //debugImages = new List<DebugImage>();
            debugImages = null;

            //SVMModel = new SVM();
               // foreach(SignShape shape in Enum.GetValues(typeof(SignShape)))
            for (int i = 0;i < signShapeCount;i++)
            {
                SVM model = new SVM();
                SVMModels.Add(model);
            }

            int R = 10;
            int C = 10;
            double v = 2;
            for (int i = 0; i < 8; i++)
            {
                GWOutputImage = GWOutputImage.ConcateHorizontal(GaborWavelet(R, C, i, v));
                Image<Gray, double> GW = GaborWavelet(R, C, i, v);
                ConvolutionKernelF ckernel = new ConvolutionKernelF(10, 10);
                for (int l = 0; l < 10; l++)
                    for (int k = 0; k < 10; k++)
                        ckernel[l, k] = (float)GW[l, k].Intensity / 10000;
                ckernel.Center = new Point(5, 5);
                cKernelList.Add(ckernel);
            }
        }
Ejemplo n.º 14
0
        public void TrainEach(string dir)
        {
            directory = dir;
            foreach (FileInfo file in new DirectoryInfo(dir).GetFiles())
            {
                SecondLayerNum++;
            }

            labels = new Matrix<float>(SecondLayerNum, 1);
            trainingDescriptors = new Matrix<float>(SecondLayerNum, classNum);
            foreach (FileInfo file in new DirectoryInfo(dir).GetFiles())
            {
                Extract(new Image<Bgr, byte>(file.FullName));
            }

            MakeDic();
            j = 0;

            foreach (FileInfo file in new DirectoryInfo(dir).GetFiles())
            {
                MakeDescriptors(new Image<Bgr, byte>(file.FullName));
            }
            Console.WriteLine();
            SecondLayerSVM = new SVM();
            SVMParams p = new SVMParams();
            p.KernelType = SVM_KERNEL_TYPE.LINEAR;
            p.SVMType = SVM_TYPE.C_SVC;
            p.C = 1;
            p.TermCrit = new MCvTermCriteria(100, 0.00001);
            SecondLayerSVM.Train(trainingDescriptors, labels, null, null, p);
        }
Ejemplo n.º 15
0
        static void Main(string[] args)
        {
            int trainSampleCount = 0;
            Image<Bgr, Byte> img = new Image<Bgr, byte>(500, 500);

            //conversion of CSV to gesture variables
            List<Gesture> gestureListClass1 = csvToGestureList(@"C:\Users\faculty\Desktop\testEB-3-20.csv");
            List<Gesture> gestureListClass2 = csvToGestureList(@"C:\Users\faculty\Desktop\testSNC-3-20.csv");

            trainSampleCount = (gestureListClass1.Count) + (gestureListClass2.Count); //set the sample count to the number of gestures we have available

            //create relevant matrices based on size of the gestureList
            Matrix<float> sample = new Matrix<float>(1, 16);
            Matrix<float> trainTestData = new Matrix<float>(trainSampleCount, 16);
            Matrix<float> trainTestClasses = new Matrix<float>(trainSampleCount, 1);

            //GESTURE MATH INCOMING
            foreach (Gesture g in gestureListClass1)
            {
                g.runMetrics();
            }

            foreach (Gesture g in gestureListClass2)
            {
                g.runMetrics();
            }

            #region Generate the training data and classes

            //fill first set of data
            for (int i = 0; i < gestureListClass1.Count; i++)
            {
                double[] gMetrics = (gestureListClass1[i].returnMetrics()).ToArray();
                /*
                 * //add gestures to list
                        temp.Add(xyRatio); //[0]
                        temp.Add(totalGestureTime); //[1]
                        temp.Add(majorAvg); //[2]
                        temp.Add(minorAvg); //[3]

                        temp.Add(avgXVelo); //[4]
                        temp.Add(avgYVelo); //[5]

                        temp.Add(majorVariance); //[6]
                        temp.Add(minorVariance); //[7]

                        //add substrokes
                        temp.Add(firstVeloMag); //[8]
                        temp.Add(firstVeloDir); //[9]
                        temp.Add(secondVeloMag); //[10]
                        temp.Add(secondVeloDir); //[11]
                        temp.Add(thirdVeloMag); //[12]
                        temp.Add(thirdVeloDir); //[13]
                        temp.Add(fourthVeloMag); //[14]
                        temp.Add(fourthVeloDir); //[15]
                 */
                trainTestData[i, 0] = ((float)gMetrics[0]) * 150; //xy ratio
                trainTestData[i, 1] = ((float)gMetrics[1]) / 4; //totalGestureTime
                trainTestData[i, 2] = ((float)gMetrics[2]);
                trainTestData[i, 3] = ((float)gMetrics[3]);
                trainTestData[i, 4] = ((float)gMetrics[4]);
                trainTestData[i, 5] = ((float)gMetrics[5]);
                trainTestData[i, 6] = ((float)gMetrics[6]);
                trainTestData[i, 7] = ((float)gMetrics[7]);
                trainTestData[i, 8] = ((float)gMetrics[8]);
                trainTestData[i, 9] = ((float)gMetrics[9]);
                trainTestData[i, 10] = ((float)gMetrics[10]);
                trainTestData[i, 11] = ((float)gMetrics[11]);
                trainTestData[i, 12] = ((float)gMetrics[12]);
                trainTestData[i, 13] = ((float)gMetrics[13]);
                trainTestData[i, 14] = ((float)gMetrics[14]);
                trainTestData[i, 15] = ((float)gMetrics[15]);
            }

            Matrix<float> trainTestData1 = trainTestData.GetRows(0, gestureListClass1.Count, 1);

            for (int j = 0; j < gestureListClass2.Count; j++)
            {
                double[] gMetrics = (gestureListClass2[j].returnMetrics()).ToArray();

                trainTestData[(j + gestureListClass1.Count), 0] = (float)gMetrics[0] * 150;
                trainTestData[(j + gestureListClass1.Count), 1] = ((float)gMetrics[1]) / 4;
                trainTestData[(j + gestureListClass1.Count), 2] = ((float)gMetrics[2]);
                trainTestData[(j + gestureListClass1.Count), 3] = ((float)gMetrics[3]);
                trainTestData[(j + gestureListClass1.Count), 4] = ((float)gMetrics[4]);
                trainTestData[(j + gestureListClass1.Count), 5] = ((float)gMetrics[5]);
                trainTestData[(j + gestureListClass1.Count), 6] = ((float)gMetrics[6]);
                trainTestData[(j + gestureListClass1.Count), 7] = ((float)gMetrics[7]);
                trainTestData[(j + gestureListClass1.Count), 8] = ((float)gMetrics[8]);
                trainTestData[(j + gestureListClass1.Count), 9] = ((float)gMetrics[9]);
                trainTestData[(j + gestureListClass1.Count), 10] = ((float)gMetrics[10]);
                trainTestData[(j + gestureListClass1.Count), 11] = ((float)gMetrics[11]);
                trainTestData[(j + gestureListClass1.Count), 12] = ((float)gMetrics[12]);
                trainTestData[(j + gestureListClass1.Count), 13] = ((float)gMetrics[13]);
                trainTestData[(j + gestureListClass1.Count), 14] = ((float)gMetrics[14]);
                trainTestData[(j + gestureListClass1.Count), 15] = ((float)gMetrics[15]);
            }

            Matrix<float> trainTestData2 = trainTestData.GetRows(gestureListClass1.Count, trainSampleCount, 1);

            Matrix<float> trainTestClasses1 = trainTestClasses.GetRows(0, gestureListClass1.Count, 1);
            trainTestClasses1.SetValue(1);
            Matrix<float> trainTestClasses2 = trainTestClasses.GetRows(gestureListClass1.Count, trainSampleCount, 1);
            trainTestClasses2.SetValue(2);
            #endregion

            using (SVM model = new SVM())
            {
                SVMParams p = new SVMParams();
                p.KernelType = Emgu.CV.ML.MlEnum.SVM_KERNEL_TYPE.LINEAR;
                p.SVMType = Emgu.CV.ML.MlEnum.SVM_TYPE.C_SVC;
                //p.Gamma = 0.1;
                p.C = 10;
                p.TermCrit = new MCvTermCriteria(100, 0.00001);

                //bool trained = model.Train(trainTestData, trainTestClasses, null, null, p);
                bool trained = model.TrainAuto(trainTestData, trainTestClasses, null, null, p.MCvSVMParams, 5);

                for (int i = 0; i < img.Height; i++)
                {
                    for (int j = 0; j < img.Width; j++)
                    {
                        sample.Data[0, 0] = j;
                        sample.Data[0, 1] = i;

                        float response = model.Predict(sample);

                        img[i, j] =
                           response == 1 ? new Bgr(90, 0, 0) :
                           new Bgr(0, 0, 90);
                        //response == 2 ? new Bgr(0, 90, 0) :
                    }
                }

                int c = model.GetSupportVectorCount();
                for (int i = 0; i < c; i++)
                {
                    float[] v = model.GetSupportVector(i);
                    PointF p1 = new PointF(v[0], v[1]);
                    img.Draw(new CircleF(p1, 4), new Bgr(255, 255, 128), 2);
                }

                model.Save(@"C:\Users\faculty\Desktop\svm-function3coord16.xml");
            }

            // display the original training samples
            for (int i = 0; i < (trainSampleCount / 2); i++)
            {
                if (i < trainTestData1.Rows)
                {
                    PointF p1 = new PointF((trainTestData1[i, 0]), (trainTestData1[i, 1]));
                    img.Draw(new CircleF(p1, 2.0f), new Bgr(255, 100, 100), -1);
                }

                if (i < trainTestData2.Rows)
                {
                    PointF p2 = new PointF((trainTestData2[i, 0]), (trainTestData2[i, 1]));
                    img.Draw(new CircleF(p2, 2.0f), new Bgr(100, 100, 255), -1);
                }
            }

            Emgu.CV.UI.ImageViewer.Show(img);
        }