示例#1
0
        //輪郭抽出して中心座標取得
        Point GetCenterPointofLED(Mat grayImage)
        {
            OpenCvSharp.CPlusPlus.Point centerPoint = new OpenCvSharp.CPlusPlus.Point();
            IplImage grayIpl  = grayImage.ToIplImage().Clone();
            IplImage calibIpl = new IplImage(grayIpl.Size, BitDepth.U8, 3);
            //中心の検出
            CvBlobs blobs = new CvBlobs();

            blobs.Label(grayIpl);
            //blobs.FilterByArea(20, 1500);
            CvBlob blob = blobs.LargestBlob();

            try
            {
                if (blob != null)
                {
                    centerPoint = new Point(blob.Centroid.X, blob.Centroid.Y);

                    blobs.RenderBlobs(grayIpl, calibIpl);
                }
            }catch {
                Console.WriteLine("eroor:counter");
            }

            this.CalibrationImage = new Mat(calibIpl);
            Console.WriteLine(centerPoint);
            return(centerPoint);
        }
示例#2
0
        public static void Blob_CvBlobs(int filterArea = 0)
        {
            Glb.DrawMatAndHist0(Glb.matSrc);

            var matThr = Glb.matSrc.CvtColor(ColorConversionCodes.BGR2GRAY).Threshold(128, 255, ThresholdTypes.Otsu);

            var blobs = new CvBlobs();

            Glb.TimerStart();
            int cnt = blobs.Label(matThr);

            Console.WriteLine("=> Label Time: {0}ms", Glb.TimerStop());

            blobs.FilterByArea(filterArea, int.MaxValue);

            var matDsp = new Mat(Glb.matSrc.Rows, Glb.matSrc.Cols, MatType.CV_8UC3);

            matDsp.SetTo(Scalar.Black);

            Glb.TimerStart();
            MyBlobRenderer.RenderBlobs(blobs, matDsp);
            Console.WriteLine("=> Render Time: {0}ms", Glb.TimerStop());

            Console.WriteLine("=> Blob Count: {0}", blobs.Count);

            Glb.DrawMatAndHist1(matThr);
            Glb.DrawMatAndHist2(matDsp);

            matThr.Dispose();
            matDsp.Dispose();
        }
示例#3
0
        public IplImage BlobContourImage(IplImage src)
        {
            blobcontour = new IplImage(src.Size, BitDepth.U8, 3);
            bin         = this.Binary(src, 50);

            CvBlobs blobs = new CvBlobs();

            blobs.Label(bin);

            foreach (KeyValuePair <int, CvBlob> item in blobs)
            {
                CvBlob b = item.Value;

                CvContourChainCode cc = b.Contour;
                cc.Render(blobcontour);

                CvContourPolygon ex_polygon = cc.ConvertToPolygon();
                foreach (CvPoint p in ex_polygon)
                {
                    Cv.DrawCircle(blobcontour, p, 1, CvColor.Blue, -1);
                }

                for (int i = 0; i < b.InternalContours.Count; i++)
                {
                    CvContourPolygon in_polygon = b.InternalContours[i].ConvertToPolygon();
                    foreach (CvPoint p in in_polygon)
                    {
                        Cv.DrawCircle(blobcontour, p, 1, CvColor.Red, -1);
                    }
                }
            }
            return(blobcontour);
        }
示例#4
0
        /// <summary>
        /// Gets the largest blob
        /// </summary>
        /// <param name="imgSrc"></param>
        /// <param name="imgRender"></param>
        private void FilterByMaximumBlob(IplImage imgSrc, IplImage imgDst)
        {
            CvBlobs blobs = new CvBlobs();

            imgDst.Zero();
            blobs.Label(imgSrc);
            CvBlob max = blobs.GreaterBlob();

            if (max == null)
            {
                return;
            }
            blobs.FilterByArea(max.Area, max.Area);
            blobs.FilterLabels(imgDst);
        }
示例#5
0
 private static void FilterByMaximalBlob(IplImage imgSrc, IplImage imgDst)
 {
     using (CvBlobs blobs = new CvBlobs())
     using (IplImage imgLabelData = new IplImage(imgSrc.Size, CvBlobLib.DepthLabel, 1))
     {
         imgDst.Zero();
         blobs.Label(imgSrc, imgLabelData);
         CvBlob max = blobs[blobs.GreaterBlob()];
         if (max == null)
         {
             return;
         }
         blobs.FilterByArea(max.Area, max.Area);
         blobs.FilterLabels(imgLabelData, imgDst);
     }
 }
示例#6
0
文件: Blob.cs 项目: 0sv/opencvsharp
        public Blob()
        {
            using (var imgSrc = new IplImage(FilePath.Image.Shapes, LoadMode.Color))
            using (var imgBinary = new IplImage(imgSrc.Size, BitDepth.U8, 1))
            using (var imgRender = new IplImage(imgSrc.Size, BitDepth.U8, 3))
            using (var imgContour = new IplImage(imgSrc.Size, BitDepth.U8, 3))
            using (var imgPolygon = new IplImage(imgSrc.Size, BitDepth.U8, 3))
            {
                Cv.CvtColor(imgSrc, imgBinary, ColorConversion.BgrToGray);
                Cv.Threshold(imgBinary, imgBinary, 100, 255, ThresholdType.Binary);

                CvBlobs blobs = new CvBlobs();
                blobs.Label(imgBinary);

                foreach (KeyValuePair<int, CvBlob> item in blobs)
                {
                    CvBlob b = item.Value;
                    Console.WriteLine("{0} | Centroid:{1} Area:{2}", item.Key, b.Centroid, b.Area);

                    CvContourChainCode cc = b.Contour;
                    cc.Render(imgContour);

                    CvContourPolygon polygon = cc.ConvertToPolygon();
                    foreach (CvPoint p in polygon)
                    {
                        imgPolygon.Circle(p, 1, CvColor.Red, -1);
                    }

                    /*
                    CvPoint2D32f circleCenter;
                    float circleRadius;
                    GetEnclosingCircle(polygon, out circleCenter, out circleRadius);
                    imgPolygon.Circle(circleCenter, (int) circleRadius, CvColor.Green, 2);
                    */
                }

                blobs.RenderBlobs(imgSrc, imgRender);

                using (new CvWindow("render", imgRender))
                using (new CvWindow("contour", imgContour))
                using (new CvWindow("polygon vertices", imgPolygon))
                {
                    Cv.WaitKey(0);
                }
            }
        }
        public static IplImage test(IplImage target)
        {
            CvBlobs  blobs    = new CvBlobs();
            IplImage lableImg = new IplImage(target.Size, CvBlobLib.DepthLabel, 1);
            IplImage retImg   = new IplImage(target.Size, BitDepth.U8, 1);

            blobs.Label(target);
            CvBlob max = blobs.GreaterBlob();

            if (max == null)
            {
                return(target);
            }
            blobs.FilterByArea(max.Area, max.Area);
            blobs.FilterLabels(retImg);
            return(retImg);
        }
示例#8
0
        public Blob()
        {
            using (var imgSrc = new IplImage(FilePath.Image.Shapes, LoadMode.Color))
                using (var imgBinary = new IplImage(imgSrc.Size, BitDepth.U8, 1))
                    using (var imgRender = new IplImage(imgSrc.Size, BitDepth.U8, 3))
                        using (var imgContour = new IplImage(imgSrc.Size, BitDepth.U8, 3))
                            using (var imgPolygon = new IplImage(imgSrc.Size, BitDepth.U8, 3))
                            {
                                Cv.CvtColor(imgSrc, imgBinary, ColorConversion.BgrToGray);
                                Cv.Threshold(imgBinary, imgBinary, 100, 255, ThresholdType.Binary);

                                CvBlobs blobs = new CvBlobs();
                                blobs.Label(imgBinary);

                                foreach (KeyValuePair <int, CvBlob> item in blobs)
                                {
                                    CvBlob b = item.Value;
                                    Console.WriteLine("{0} | Centroid:{1} Area:{2}", item.Key, b.Centroid, b.Area);

                                    CvContourChainCode cc = b.Contour;
                                    cc.Render(imgContour);

                                    CvContourPolygon polygon = cc.ConvertToPolygon();
                                    foreach (CvPoint p in polygon)
                                    {
                                        imgPolygon.Circle(p, 1, CvColor.Red, -1);
                                    }

                                    /*
                                     * CvPoint2D32f circleCenter;
                                     * float circleRadius;
                                     * GetEnclosingCircle(polygon, out circleCenter, out circleRadius);
                                     * imgPolygon.Circle(circleCenter, (int) circleRadius, CvColor.Green, 2);
                                     */
                                }

                                blobs.RenderBlobs(imgSrc, imgRender);

                                using (new CvWindow("render", imgRender))
                                    using (new CvWindow("contour", imgContour))
                                        using (new CvWindow("polygon vertices", imgPolygon))
                                        {
                                            Cv.WaitKey(0);
                                        }
                            }
        }
示例#9
0
    // Update is called once per frame
    void Update()
    {
        IplImage frame = Cv.QueryFrame(capture);

        imgBinary  = new IplImage(frame.Size, BitDepth.U8, 1);
        imgLabel   = new IplImage(frame.Size, BitDepth.F32, 1);
        imgRender  = new IplImage(frame.Size, BitDepth.U8, 3);
        imgContour = new IplImage(frame.Size, BitDepth.U8, 3);
        imgPolygon = new IplImage(frame.Size, BitDepth.U8, 3);
        Color[] cols = new Color[texture.width * texture.height];
        Cv.CvtColor(frame, imgBinary, ColorConversion.BgrToGray);
        Cv.Threshold(imgBinary, imgBinary, 100, 255, ThresholdType.Binary);
        CvBlobs blobs  = new CvBlobs();
        uint    result = blobs.Label(imgBinary, imgLabel);

        foreach (KeyValuePair <uint, CvBlob> item in blobs)
        {
            CvBlob b = item.Value;
            //Console.WriteLine ("{0} | Centroid:{1} Area:{2}", item.Key, b.Centroid, b.Area);

            CvContourChainCode cc = b.Contour;
            cc.RenderContourChainCode(imgContour);

            CvContourPolygon polygon = cc.ConvertChainCodesToPolygon();
            foreach (CvPoint p in polygon)
            {
                imgPolygon.Circle(p, 1, CvColor.Red, -1);
            }
        }

        blobs.RenderBlobs(imgLabel, frame, imgRender);

        for (int y = 0; y < texture.height; y++)
        {
            for (int x = 0; x < texture.width; x++)
            {
                CvColor col = imgRender.Get2D(y, x);
                cols[y * texture.width + x] = new Color(col.R / 255.0f, col.G / 255.0f, col.B / 255.0f, 1.0f);
            }
        }
        // int t2 = System.Environment.TickCount;
        texture.SetPixels(cols);
        //int t3 = System.Environment.TickCount;
        //Debug.Log("t2-t1=" + (t2 - t1) + " t3-t2=" + (t3 - t2));
        texture.Apply();
    }
示例#10
0
        public BlobOld()
        {
            using (IplImage imgSrc = new IplImage(Const.ImageShapes, LoadMode.Color))
            using (IplImage imgBinary = new IplImage(imgSrc.Size, BitDepth.U8, 1))
            using (IplImage imgLabel = new IplImage(imgSrc.Size, BitDepth.F32, 1))            
            using (IplImage imgRender = new IplImage(imgSrc.Size, BitDepth.U8, 3))
            using (IplImage imgContour = new IplImage(imgSrc.Size, BitDepth.U8, 3))
            using (IplImage imgPolygon = new IplImage(imgSrc.Size, BitDepth.U8, 3))
            {
                Cv.CvtColor(imgSrc, imgBinary, ColorConversion.BgrToGray);
                Cv.Threshold(imgBinary, imgBinary, 100, 255, ThresholdType.Binary);

                using (CvBlobs blobs = new CvBlobs())
                {
                    uint result = blobs.Label(imgBinary, imgLabel);

                    foreach (KeyValuePair<uint, CvBlob> item in blobs)
                    {
                        CvBlob b = item.Value;
                        Console.WriteLine("{0} | Centroid:{1} Area:{2}", item.Key, b.Centroid, b.Area);

                        CvContourChainCode cc = b.Contour;
                        cc.RenderContourChainCode(imgContour);

                        CvContourPolygon polygon = cc.ConvertChainCodesToPolygon();
                        foreach (CvPoint p in polygon)
                        {
                            imgPolygon.Circle(p, 1, CvColor.Red, -1);
                        }
                    }

                    blobs.RenderBlobs(imgLabel, imgSrc, imgRender);

                    using (new CvWindow("render", imgRender))
                    using (new CvWindow("contour", imgContour))
                    using (new CvWindow("polygon vertices", imgPolygon))
                    {
                        Cv.WaitKey(0);
                    }
                }

            }
        }
示例#11
0
        public static void CarbonPaper(int x1 = 100, int y1 = 300, int x2 = 1100, int y2 = 1600, ThresholdTypes thrType = ThresholdTypes.Binary, int thr = 128, int filterArea = 30)
        {
            // 1. convert to grayscale
            var matGray = Glb.matSrc.CvtColor(ColorConversionCodes.BGR2GRAY);

            // 2. roi crop
            Rect roi            = new Rect(x1, y1, x2 - x1 + 1, y2 - y1 + 1);
            var  matGrayDrawRoi = Glb.matSrc.Clone();

            matGrayDrawRoi.Rectangle(roi, Scalar.Yellow);
            Glb.DrawMat0(matGrayDrawRoi);

            var matRoi = new Mat(matGray, roi);

            Glb.DrawHist0(matRoi);

            // 3. threshold
            var matThr = matRoi.Threshold(thr, 255, thrType);

            Glb.DrawMatAndHist1(matThr);

            // 4. blob with area filter
            CvBlobs blobs = new CvBlobs();

            blobs.Label(matThr);
            blobs.FilterByArea(filterArea, int.MaxValue);

            // 5. display blob
            var matDsp = new Mat(matRoi.Rows, matRoi.Cols, MatType.CV_8UC3);

            matDsp.SetTo(Scalar.Black);
            blobs.RenderBlobs(matDsp, matDsp, RenderBlobsModes.Color);
            Glb.DrawMatAndHist2(matDsp);

            Console.WriteLine("blobs.cnt = {0}", blobs.Count);

            matGray.Dispose();
            matGrayDrawRoi.Dispose();
            matRoi.Dispose();
            matThr.Dispose();
            matDsp.Dispose();
        }
示例#12
0
        public IplImage BlobImage(IplImage src)
        {
            blob = new IplImage(src.Size, BitDepth.U8, 3);
            bin  = this.Binary(src, 50);

            CvBlobs blobs = new CvBlobs();

            blobs.Label(bin);

            blobs.RenderBlobs(src, blob);

            foreach (KeyValuePair <int, CvBlob> item in blobs)
            {
                CvBlob b = item.Value;

                Cv.PutText(blob, Convert.ToString(b.Label), b.Centroid, new CvFont(FontFace.HersheyComplex, 1, 1), CvColor.Red);
            }

            return(blob);
        }
示例#13
0
        public Blob()
        {
            using (IplImage imgSrc = new IplImage(Const.ImageShapes, LoadMode.Color))
                using (IplImage imgBinary = new IplImage(imgSrc.Size, BitDepth.U8, 1))
                    using (IplImage imgLabel = new IplImage(imgSrc.Size, BitDepth.F32, 1))
                        using (IplImage imgRender = new IplImage(imgSrc.Size, BitDepth.U8, 3))
                            using (IplImage imgContour = new IplImage(imgSrc.Size, BitDepth.U8, 3))
                                using (IplImage imgPolygon = new IplImage(imgSrc.Size, BitDepth.U8, 3))
                                {
                                    Cv.CvtColor(imgSrc, imgBinary, ColorConversion.BgrToGray);
                                    Cv.Threshold(imgBinary, imgBinary, 100, 255, ThresholdType.Binary);

                                    CvBlobs blobs = new CvBlobs();
                                    blobs.Label(imgBinary);

                                    foreach (KeyValuePair <int, CvBlob> item in blobs)
                                    {
                                        CvBlob b = item.Value;
                                        Console.WriteLine("{0} | Centroid:{1} Area:{2}", item.Key, b.Centroid, b.Area);

                                        CvContourChainCode cc = b.Contour;
                                        cc.Render(imgContour);

                                        CvContourPolygon polygon = cc.ConvertToPolygon();
                                        foreach (CvPoint p in polygon)
                                        {
                                            imgPolygon.Circle(p, 1, CvColor.Red, -1);
                                        }
                                    }

                                    blobs.RenderBlobs(imgSrc, imgRender);

                                    using (new CvWindow("render", imgRender))
                                        using (new CvWindow("contour", imgContour))
                                            using (new CvWindow("polygon vertices", imgPolygon))
                                            {
                                                Cv.WaitKey(0);
                                            }
                                }
        }
示例#14
0
        /// <summary>
        /// Label the connected parts of a binary image. (cvLabel)
        /// </summary>
        /// <param name="img">Input binary image (depth=IPL_DEPTH_8U and num. channels=1).</param>
        /// <param name="blobs">List of blobs.</param>
        /// <returns>Number of pixels that has been labeled.</returns>
        public static int Label(Mat img, CvBlobs blobs)
        {
            if (img == null)
                throw new ArgumentNullException(nameof(img));
            if (blobs == null)
                throw new ArgumentNullException(nameof(blobs));

            return blobs.Label(img);
        }
        //輪郭抽出して中心座標取得
        Point GetCenterPointofLED(Mat grayImage)
        {
            OpenCvSharp.CPlusPlus.Point centerPoint = new OpenCvSharp.CPlusPlus.Point();
            IplImage grayIpl = grayImage.ToIplImage().Clone();
            IplImage calibIpl = new IplImage(grayIpl.Size, BitDepth.U8, 3);
            //中心の検出
            CvBlobs blobs = new CvBlobs();
            blobs.Label(grayIpl);
            //blobs.FilterByArea(20, 1500);
            CvBlob blob = blobs.LargestBlob();

            try
            {
                if (blob != null)
                {
                    centerPoint = new Point(blob.Centroid.X, blob.Centroid.Y);

                    blobs.RenderBlobs(grayIpl, calibIpl);
                }
            }catch{
                Console.WriteLine("eroor:counter");
            }

            this.CalibrationImage = new Mat(calibIpl);
            Console.WriteLine(centerPoint);
            return centerPoint;
        }
示例#16
0
        // 別スレッド処理(キャプチャー)
        private void worker_DoWork(object sender, DoWorkEventArgs e)
        {
            BackgroundWorker bw = (BackgroundWorker)sender;
            Stopwatch        sw = new Stopwatch();
            string           str;

            id = 0;

            //PID送信用UDP
            //バインドするローカルポート番号
//            FSI_PID_DATA pid_data = new FSI_PID_DATA();
            int localPort = mmFsiUdpPortMT3PV;

            System.Net.Sockets.UdpClient udpc2 = null;;

/*            try
 *          {
 *              udpc2 = new System.Net.Sockets.UdpClient(localPort);
 *
 *          }
 *          catch (Exception ex)
 *          {
 *              //匿名デリゲートで表示する
 *              this.Invoke(new dlgSetString(ShowRText), new object[] { richTextBox1, ex.ToString() });
 *          }
 */

            //videoInputオブジェクト
            const int DeviceID      = 0;  // 0;      // 3 (pro), 4(piccolo)  7(DMK)
            const int CaptureFps    = 30; // 30
            int       interval      = (int)(1000 / CaptureFps / 10);
            const int CaptureWidth  = 640;
            const int CaptureHeight = 480;
            // 画像保存枚数
            int mmFsiPostRec = 60;
            int save_counter = mmFsiPostRec;

            using (VideoInput vi = new VideoInput())
            {
                vi.SetIdealFramerate(DeviceID, CaptureFps);
                vi.SetupDevice(DeviceID, CaptureWidth, CaptureHeight);

                int width  = vi.GetWidth(DeviceID);
                int height = vi.GetHeight(DeviceID);

                using (IplImage img = new IplImage(width, height, BitDepth.U8, 3))
                    using (IplImage img_dark8 = Cv.LoadImage(@"C:\piccolo\MT3V_dark.bmp", LoadMode.GrayScale))
                        //using (IplImage img_dark = new IplImage(width, height, BitDepth.U8, 3))
                        using (IplImage img_mono = new IplImage(width, height, BitDepth.U8, 1))
                            using (IplImage img2 = new IplImage(width, height, BitDepth.U8, 1))
                                //                    using (Bitmap bitmap = new Bitmap(width, height, PixelFormat.Format24bppRgb))
                                using (CvFont font = new CvFont(FontFace.HersheyComplex, 0.45, 0.45))
                                //using (CvWindow window0 = new CvWindow("FIFO0", WindowMode.AutoSize))
                                {
                                    //this.Size = new Size(width + 12, height + 148);
                                    double  min_val, max_val;
                                    CvPoint min_loc, max_loc;
                                    int     size = 15;
                                    int     size2x = size / 2;
                                    int     size2y = size / 2;
                                    int     crop = 20;
                                    double  sigma = 3;
                                    long    elapsed0 = 0, elapsed1 = 0;
                                    double  framerate0 = 0, framerate1 = 0;
                                    double  alfa_fr = 0.99;
                                    sw.Start();
                                    while (bw.CancellationPending == false)
                                    {
                                        if (vi.IsFrameNew(DeviceID))
                                        {
                                            DateTime dn = DateTime.Now; //取得時刻
                                            vi.GetPixels(DeviceID, img.ImageData, false, true);
                                            // 画面time表示
                                            str = String.Format("Wide ID:{0:D2} ", id) + dn.ToString("yyyyMMdd_HHmmss_fff");// +String.Format(" ({0,000:F2},{1,000:F2}) ({2,000:0},{3,000:0})({4,0:F1})", gx, gy, max_loc.X, max_loc.Y, max_val);
                                            img.PutText(str, new CvPoint(10, 475), font, new CvColor(0, 100, 40));

                                            Cv.CvtColor(img, img_mono, ColorConversion.BgrToGray);
                                            Cv.Sub(img_mono, img_dark8, imgdata.img); // dark減算
                                            imgdata.id          = ++id;
                                            imgdata.t           = dn;
                                            imgdata.ImgSaveFlag = !(ImgSaveFlag != 0); //int->bool変換
                                            if (fifo.Count == MaxFrame - 1)
                                            {
                                                fifo.EraseLast();
                                            }
                                            fifo.InsertFirst(imgdata);

                                            #region 位置検出1//MinMaxLoc

                                            /*// 位置検出
                                             * Cv.Smooth(imgdata.img, img2, SmoothType.Gaussian, size, 0, sigma, 0);
                                             * CvRect rect;
                                             * if (PvMode == MyDETECT)
                                             * {
                                             *  rect = new CvRect( (int)(gx+0.5) - size, (int)(gy+0.5) - size, size*2, size*2);
                                             *  Cv.SetImageROI(img2, rect);
                                             *  Cv.MinMaxLoc(img2, out  min_val, out  max_val, out  min_loc, out  max_loc, null);
                                             *  Cv.ResetImageROI(img2);
                                             *  max_loc.X += (int)(gx + 0.5) - size; // 基準点が(1,1)のため+1
                                             *  max_loc.Y += (int)(gy + 0.5) - size;
                                             * }
                                             * else
                                             * {
                                             *  rect = new CvRect(crop, crop, width - (crop + crop), height - (crop + crop));
                                             *  Cv.SetImageROI(img2, rect);
                                             *  Cv.MinMaxLoc(img2, out  min_val, out  max_val, out  min_loc, out  max_loc, null);
                                             *  Cv.ResetImageROI(img2);
                                             *  max_loc.X += crop; // 基準点が(1,1)のため+1
                                             *  max_loc.Y += crop;
                                             * }
                                             * window0.ShowImage(img2);
                                             *
                                             * double m00, m10, m01;
                                             * size2x = size2y = size / 2;
                                             * if (max_loc.X - size2x < 0) size2x = max_loc.X;
                                             * if (max_loc.Y - size2y < 0) size2y = max_loc.Y;
                                             * if (max_loc.X + size2x >= width ) size2x = width  -max_loc.X -1;
                                             * if (max_loc.Y + size2y >= height) size2y = height -max_loc.Y -1;
                                             * rect = new CvRect(max_loc.X - size2x, max_loc.Y - size2y, size, size);
                                             * CvMoments moments;
                                             * Cv.SetImageROI(img2, rect);
                                             * Cv.Moments(img2, out moments, false);
                                             * Cv.ResetImageROI(img2);
                                             * m00 = Cv.GetSpatialMoment(moments, 0, 0);
                                             * m10 = Cv.GetSpatialMoment(moments, 1, 0);
                                             * m01 = Cv.GetSpatialMoment(moments, 0, 1);
                                             * gx = max_loc.X - size2x + m10 / m00;
                                             * gy = max_loc.Y - size2y + m01 / m00;
                                             */
                                            #endregion


                                            #region 位置検出2                                                               //Blob
                                            Cv.Threshold(imgdata.img, img2, threshold_blob, 255, ThresholdType.Binary); //2ms
                                            blobs.Label(img2, imgLabel);                                                //1.4ms
                                            max_label = blobs.GreaterBlob();
                                            elapsed1  = sw.ElapsedTicks;                                                //1.3ms

                                            if (blobs.Count > 1 && gx >= 0)
                                            {
                                                uint min_area = (uint)(threshold_min_area * blobs[max_label].Area);
                                                blobs.FilterByArea(min_area, uint.MaxValue); //0.001ms

                                                // 最適blobの選定(area大 かつ 前回からの距離小)
                                                double x    = blobs[max_label].Centroid.X;
                                                double y    = blobs[max_label].Centroid.Y;
                                                uint   area = blobs[max_label].Area;
                                                //CvRect rect;
                                                distance_min = ((x - gx) * (x - gx) + (y - gy) * (y - gy)); //Math.Sqrt()
                                                foreach (var item in blobs)
                                                {
                                                    //Console.WriteLine("{0} | Centroid:{1} Area:{2}", item.Key, item.Value.Centroid, item.Value.Area);
                                                    x = item.Value.Centroid.X;
                                                    y = item.Value.Centroid.Y;
                                                    //rect = item.Value.Rect;
                                                    distance = ((x - gx) * (x - gx) + (y - gy) * (y - gy)); //将来はマハラノビス距離
                                                    if (distance < distance_min)
                                                    {
                                                        d_val = (item.Value.Area) / max_area;
                                                        if (distance <= 25)   //近距離(5pix)
                                                        {
                                                            if (d_val >= 0.4) //&& d_val <= 1.2)
                                                            {
                                                                max_label    = item.Key;
                                                                distance_min = distance;
                                                            }
                                                        }
                                                        else
                                                        {
                                                            if (d_val >= 0.8 && d_val <= 1.5)
                                                            {
                                                                max_label    = item.Key;
                                                                distance_min = distance;
                                                            }
                                                        }
                                                    }
                                                    //w.WriteLine("{0} {1} {2} {3} {4}", dis, dv, i, item.Key, item.Value.Area);
                                                }
                                                //gx = x; gy = y; max_val = area;
                                            }

                                            if (max_label > 0)
                                            {
                                                maxBlob      = blobs[max_label];
                                                max_centroid = maxBlob.Centroid;
                                                gx           = max_centroid.X;
                                                gy           = max_centroid.Y;
                                                max_area     = maxBlob.Area;
                                                if (this.States == SAVE)
                                                {
                                                    Pid_Data_Send();
                                                    timerSavePostTime.Stop();
                                                    timerSaveMainTime.Stop();
                                                    timerSaveMainTime.Start();
                                                }
                                            }
                                            else
                                            {
                                                gx       = gy = 0;
                                                max_area = 0;
                                            }
                                            #endregion


                                            // 画面表示
                                            str = String.Format("ID:{0:D2} ", id) + dn.ToString("yyyyMMdd_HHmmss_fff") + String.Format(" ({0,000:F2},{1,000:F2}) ({2,000:0},{3,000:0})({4,0:F1})", gx, gy, xoa, yoa, max_area);
                                            if (imgdata.ImgSaveFlag)
                                            {
                                                str += " True";
                                            }
                                            img.PutText(str, new CvPoint(10, 20), font, new CvColor(0, 255, 100));
                                            img.Circle(new CvPoint((int)gx, (int)gy), 10, new CvColor(255, 255, 100));
                                            bw.ReportProgress(0, img);

                                            // 処理速度
                                            elapsed0   = sw.ElapsedTicks - elapsed1; // 1frameのticks
                                            elapsed1   = sw.ElapsedTicks;
                                            framerate0 = alfa_fr * framerate1 + (1 - alfa_fr) * (Stopwatch.Frequency / (double)elapsed0);
                                            framerate1 = framerate0;

                                            str = String.Format("fr time = {0}({1}){2:F1}", sw.Elapsed, id, framerate0); //," ", sw.ElapsedMilliseconds);
                                            //匿名デリゲートで現在の時間をラベルに表示する
                                            this.Invoke(new dlgSetString(ShowText), new object[] { textBox1, str });
                                            //img.ToBitmap(bitmap);
                                            //pictureBox1.Refresh();
                                        }
                                        Application.DoEvents();
                                        Thread.Sleep(interval);
                                    }
                                    this.States = STOP;
                                    this.Invoke(new dlgSetColor(SetColor), new object[] { ObsStart, this.States });
                                    this.Invoke(new dlgSetColor(SetColor), new object[] { ObsEndButton, this.States });
                                    vi.StopDevice(DeviceID);
                                    //udpc2.Close();
                                }
            }
        }
示例#17
0
        /// <summary>
        /// Label the connected parts of a binary image. (cvLabel)
        /// </summary>
        /// <param name="img">Input binary image (depth=IPL_DEPTH_8U and num. channels=1).</param>
        /// <param name="blobs">List of blobs.</param>
        /// <returns>Number of pixels that has been labeled.</returns>
        public static int Label(IplImage img, CvBlobs blobs)
        {
            if (img == null)
                throw new ArgumentNullException("img");
            if (blobs == null)
                throw new ArgumentNullException("blobs");

            return blobs.Label(img);
        }
示例#18
0
        /// <summary>
        /// Takes blobs information based on colors in <see cref="hsv"/> list and then sends the info through UDP.
        /// </summary>
        /// <param name="sourceImage">Image in Mat format.</param>
        /// <returns>Image in Mat format.</returns>
        private Mat Renderer(Mat sourceImage)
        {
            Mat dstNoisy = src;
            Mat dstClear = new Mat();
            Mat dst      = new Mat();
            Mat element  = Cv2.GetStructuringElement(MorphShapes.Rect, new Size(2 * MorphValue + 1, 2 * MorphValue + 1));

            Cv2.Blur(dstNoisy, dstClear, new Size(9, 9));

            Cv2.CvtColor(dstClear, dst, ColorConversionCodes.BGR2HSV); // Convert BGR to HSV.

            Mat dstThreshed = new Mat();
            Mat dstPreview  = new Mat();

            if (hsv.Count > 0)
            {
                int  blobCount = 1;
                bool theFirst  = true;

                foreach (int[] scal in hsv)
                {
                    if (theFirst)
                    {
                        Cv2.InRange(dst, new Scalar(scal[0] - 10, scal[1], scal[3]), new Scalar(scal[0] + 10, scal[2], scal[4]), dstPreview);
                        theFirst = false;
                    }
                    else
                    {
                        Mat dstPreview2 = new Mat();
                        Cv2.InRange(dst, new Scalar(scal[0] - 10, scal[1], scal[3]), new Scalar(scal[0] + 10, scal[2], scal[4]), dstPreview2);
                        Cv2.AddWeighted(dstThreshed, 1.0, dstPreview2, 1.0, 0.0, dstPreview);
                    }
                    Cv2.InRange(dst, new Scalar(scal[0] - 10, scal[1], scal[3]), new Scalar(scal[0] + 10, scal[2], scal[4]), dstThreshed);

                    // Morphologic transformation to close the gaps inside the blob.
                    Cv2.MorphologyEx(src: dstThreshed,
                                     dst: dstThreshed,
                                     op: MorphTypes.Close,
                                     element: element
                                     );

                    blobDetection.Label(dstThreshed);
                    blobDetection.FilterByArea(MinBlobArea, MaxBlobArea);
                    blobDetection.RenderBlobs(dstThreshed, src);
                    CircleSegment[] circles = Cv2.HoughCircles(dstThreshed, HoughMethods.Gradient, 1, dstThreshed.Rows / 8);

                    // Creates all udp datagrams----------------------------------------------------
                    if (blobDetection.Count != 0)
                    {
                        for (int i = 0; i < blobDetection.Count; i++)
                        {
                            int processKey = blobDetection.ElementAt(i).Key;
                            udpDatagram_1 = "[$]tracking|id=" + data_id + "|label=" + blobCount + "|[$$]" + deviceName + ",[$$$]mesh,sample,";
                            for (int j = 0; j < blobDetection[processKey].Contour.ConvertToPolygon().Simplify(1).Count; j++)
                            {
                                if (orientation)
                                {
                                    udpDatagram_1 += Math.Round((float)blobDetection[processKey].Contour.ConvertToPolygon().Simplify(1).ElementAt(j).X / dst.Cols, 4).ToString().Replace(',', '.');
                                    udpDatagram_1 += "," + (1 - Math.Round((float)blobDetection[processKey].Contour.ConvertToPolygon().Simplify(1).ElementAt(j).Y / dst.Rows, 4)).ToString().Replace(',', '.');
                                    udpDatagram_1 += ",";
                                }
                                else
                                {
                                    udpDatagram_1 += (1 - Math.Round((float)blobDetection[processKey].Contour.ConvertToPolygon().Simplify(1).ElementAt(j).X / dst.Cols, 4)).ToString().Replace(',', '.');
                                    udpDatagram_1 += "," + Math.Round((float)blobDetection[processKey].Contour.ConvertToPolygon().Simplify(1).ElementAt(j).Y / dst.Rows, 4).ToString().Replace(',', '.');
                                    udpDatagram_1 += ",";
                                }
                            }
                            udpDatagram_1 += ";";
                            udpDatagram_2  = "[$]tracking|id=" + data_id + "|label=" + blobCount + "|[$$]" + deviceName + ",[$$$]area,";
                            udpDatagram_2 += "value," + blobDetection[processKey].Contour.ConvertToPolygon().Simplify(1).Area().ToString().Replace(',', '.') + ";";
                            udpDatagram_3  = "[$]tracking|id=" + data_id + "|label=" + blobCount + "|[$$]" + deviceName + ",[$$$]place,";
                            if (orientation)
                            {
                                udpDatagram_3 += "position," + (Math.Round(blobDetection[processKey].Centroid.X / dst.Cols, 3)).ToString().Replace(',', '.') + "," + (Math.Round(1 - (blobDetection[processKey].Centroid.Y / dst.Rows), 3)).ToString().Replace(',', '.') + ";";
                            }
                            else
                            {
                                udpDatagram_3 += "position," + (Math.Round(1 - (blobDetection[processKey].Centroid.X / dst.Cols), 3)).ToString().Replace(',', '.') + "," + (Math.Round(blobDetection[processKey].Centroid.Y / dst.Rows, 3)).ToString().Replace(',', '.') + ";";
                            }
                            udpDatagram_4  = "[$]tracking|id=" + data_id + "|label=" + blobCount + "|[$$]" + deviceName + ",[$$$]color,";
                            udpDatagram_4 += "hsv," + scal[0] + "-" + (scal[1] + scal[2]) / 2 + "-" + (scal[3] + scal[4]) / 2 + ";";

                            //Geometry
                            udpDatagram_5 = "[$]tracking|id=" + data_id + "|label=" + blobCount + "|[$$]" + deviceName + ",[$$$]form,geometry,";
                            CvContourPolygon poly          = blobDetection[processKey].Contour.ConvertToPolygon();
                            double           epsilon       = 0.04 * Cv2.ArcLength(poly, true);
                            Point[]          counterResult = Cv2.ApproxPolyDP(poly, epsilon, closed: true);
                            int    contourSimple_counter   = counterResult.Length;
                            string geometry = "";
                            switch (contourSimple_counter)
                            {
                            case 3:
                                geometry = "triangle";
                                break;

                            case 4:
                                Rect  rect        = Cv2.BoundingRect(poly);
                                float aspectRatio = 0;
                                if (rect.Y != 0)
                                {
                                    aspectRatio = rect.X / rect.Y;
                                }
                                if (aspectRatio >= 0.95 && aspectRatio <= 1.05)
                                {
                                    geometry = "square";
                                }
                                else
                                {
                                    geometry = "rectangle";
                                }
                                break;

                            default:
                                geometry = "unidentified" + contourSimple_counter;
                                break;
                            }
                            udpDatagram_5 += geometry + ";";
                            if (BlobLabel)
                            {
                                Cv2.PutText(src, geometry, blobDetection[processKey].Centroid, HersheyFonts.HersheySimplex, 0.5, new Scalar(0, 255, 0), 2);
                                Cv2.PutText(src, "[" + scal[0] + ", " + ((scal[1] + scal[2]) / 2) + ", " + ((scal[3] + scal[4]) / 2) + "]", new Point(blobDetection[processKey].Centroid.X, blobDetection[processKey].Centroid.Y + 20), HersheyFonts.HersheySimplex, 0.45, new Scalar(0, 255, 0), 2);
                            }
                            udpDatagram_6  = "[$]tracking|id=" + data_id + "|label=" + blobCount + "|[$$]" + deviceName + ",[$$$]perimeter,value,";
                            udpDatagram_6 += blobDetection[processKey].Contour.Perimeter().ToString().Replace(',', '.') + ";";

                            // UDP sender---------------------------------------------------------------------
                            try
                            {
                                byte[] sendBytes_1 = Encoding.ASCII.GetBytes(udpDatagram_1);
                                byte[] sendBytes_2 = Encoding.ASCII.GetBytes(udpDatagram_2);
                                byte[] sendBytes_3 = Encoding.ASCII.GetBytes(udpDatagram_3);
                                byte[] sendBytes_4 = Encoding.ASCII.GetBytes(udpDatagram_4);
                                byte[] sendBytes_5 = Encoding.ASCII.GetBytes(udpDatagram_5);
                                byte[] sendBytes_6 = Encoding.ASCII.GetBytes(udpDatagram_6);
                                udpClient.Send(sendBytes_1, sendBytes_1.Length, IP_udp, Port_udp);
                                udpClient.Send(sendBytes_2, sendBytes_2.Length, IP_udp, Port_udp);
                                udpClient.Send(sendBytes_3, sendBytes_3.Length, IP_udp, Port_udp);
                                udpClient.Send(sendBytes_4, sendBytes_4.Length, IP_udp, Port_udp);
                                udpClient.Send(sendBytes_5, sendBytes_5.Length, IP_udp, Port_udp);
                                udpClient.Send(sendBytes_6, sendBytes_6.Length, IP_udp, Port_udp);
                            }
                            catch (Exception e)
                            {
                                Console.WriteLine(e.ToString());
                            }
                            udpDatagram_1 = "";
                            udpDatagram_2 = "";
                            udpDatagram_3 = "";
                            udpDatagram_4 = "";
                            blobCount++;
                        }
                    }
                }
                blobCount = 1;
            }

            // Same morphologic transformation but this time for the output image.
            Cv2.MorphologyEx(src: dstPreview,
                             dst: dstPreview,
                             op: MorphTypes.Close,
                             element: element
                             );

            return(dstPreview);
        }
示例#19
0
        /// <summary>
        /// ラベリングにより最大の面積の領域を残す
        /// </summary>
        /// <param name="imgSrc"></param>
        /// <param name="imgRender"></param>
        private void FilterByMaximalBlob(IplImage imgSrc, IplImage imgDst)
        {
            CvBlobs blobs = new CvBlobs();

            imgDst.Zero();
            blobs.Label(imgSrc);
            CvBlob max = blobs.GreaterBlob();
            if (max == null)
                return;
            blobs.FilterByArea(max.Area, max.Area);
            blobs.FilterLabels(imgDst);
        }
        private void OnFrameArrived(object sender, MultiSourceFrameArrivedEventArgs e)
        {
            double           utcTime          = (DateTime.UtcNow - new DateTime(1970, 1, 1)).TotalSeconds;
            MultiSourceFrame multiSourceFrame = e.FrameReference.AcquireFrame();

            using (ColorFrame colorFrame = multiSourceFrame.ColorFrameReference.AcquireFrame())
            {
                using (DepthFrame depthFrame = multiSourceFrame.DepthFrameReference.AcquireFrame())
                {
                    if (colorFrame != null)
                    {
                        colorFrame.CopyConvertedFrameDataToArray(this.colorArray, ColorImageFormat.Bgra);
                        // System.Buffer.BlockCopy(this.colorArray, 0, this.byteColorArray,0,(this.kinect.ColorFrameSource.FrameDescription.Height * this.kinect.ColorFrameSource.FrameDescription.Width * BYTES_PER_COLOR_PIXEL));
                        // System.Buffer.BlockCopy(BitConverter.GetBytes(utcTime), 0, this.byteColorArray, (this.kinect.ColorFrameSource.FrameDescription.Height * this.kinect.ColorFrameSource.FrameDescription.Width * BYTES_PER_COLOR_PIXEL), sizeof(double));
                        // this.colorConnector.Broadcast(this.byteColorArray);

                        FrameDescription colorFrameDescription = colorFrame.FrameDescription;

                        using (KinectBuffer colorBuffer = colorFrame.LockRawImageBuffer())
                        {
                            this.colorBitmap.Lock();

                            // verify data and write the new color frame data to the display bitmap
                            if ((colorFrameDescription.Width == this.colorBitmap.PixelWidth) && (colorFrameDescription.Height == this.colorBitmap.PixelHeight))
                            {
                                colorFrame.CopyConvertedFrameDataToIntPtr(
                                    this.colorBitmap.BackBuffer,
                                    (uint)(colorFrameDescription.Width * colorFrameDescription.Height * 4),
                                    ColorImageFormat.Bgra);

                                this.colorBitmap.AddDirtyRect(new Int32Rect(0, 0, this.colorBitmap.PixelWidth, this.colorBitmap.PixelHeight));
                            }

                            this.colorBitmap.Unlock();
                        }


                        IplImage imgSrc  = this.colorBitmap.ToIplImage();             // Source, BGR image.
                        IplImage imgGray = new IplImage(imgSrc.Size, BitDepth.U8, 1); // Binary image that has the blobs.
                        IplImage imghsv  = new IplImage(imgSrc.Size, BitDepth.U8, 3); // HSV image for thresholding.


                        Cv.CvtColor(imgSrc, imghsv, ColorConversion.BgrToHsv);


                        Cv.InRange(imghsv, lower, upper, imgGray);
                        CvBlobs blobs = new CvBlobs();
                        blobs.Label(imgGray);
                        int min_area = 1500;
                        foreach (KeyValuePair <int, CvBlob> item in blobs)
                        {
                            int    label = item.Key;
                            CvBlob blob  = item.Value;
                            blob.CalcCentroid();
                            int val = blob.Area;
                            if (val > min_area)
                            {
                                min_area = val;
                                float x = (float)blob.Centroid.X;
                                float y = (float)blob.Centroid.Y;
                                target_x = (int)x;
                                target_y = (int)y;
                            }


                            //   Debug.Print( "Coordinates" + (blob.Centroid.ToString()) +"Area" + val.ToString());
                        }

                        /*
                         * IplImage render = new IplImage(imgSrc.Size, BitDepth.U8, 3);
                         * blobs.RenderBlobs(imgSrc, render);
                         *
                         * using (new CvWindow("Orange Blob Detection", WindowMode.AutoSize, render))
                         * {
                         *   CvWindow.WaitKey(0);
                         * }
                         */
                    }

                    if (depthFrame != null)
                    {
                        // Debug.Print("HELLO");

                        depthFrame.CopyFrameDataToArray(this.depthArray);
                        System.Buffer.BlockCopy(this.depthArray, 0, this.byteDepthArray, 0, this.kinect.DepthFrameSource.FrameDescription.Height * this.kinect.DepthFrameSource.FrameDescription.Width * BYTES_PER_DEPTH_PIXEL);
                        System.Buffer.BlockCopy(BitConverter.GetBytes(utcTime), 0, this.byteDepthArray, this.kinect.DepthFrameSource.FrameDescription.Height * this.kinect.DepthFrameSource.FrameDescription.Width * BYTES_PER_DEPTH_PIXEL, sizeof(double));
                        // Console.WriteLine("depth "+ this.byteDepthArray.Length);
                        calculateScanFromDepth(this.depthArray);
                        System.Buffer.BlockCopy(this.scan2DArray, 0, this.byteScan2DArray, 0, 6 * this.kinect.DepthFrameSource.FrameDescription.Width * 4 + 12);
                        // System.Buffer.BlockCopy(BitConverter.GetBytes(utcTime), 0, this.byteScan2DArray, this.kinect.DepthFrameSource.FrameDescription.Height * this.kinect.DepthFrameSource.FrameDescription.Width * 4, sizeof(double));

                        this.scan2DConnector.Broadcast(this.byteScan2DArray);
                        this.depthConnector.Broadcast(this.byteDepthArray);
                    }
                }
            }



            /*using (InfraredFrame irFrame = multiSourceFrame.InfraredFrameReference.AcquireFrame())
             * {
             *  if (irFrame != null)
             *  {
             *      irFrame.CopyFrameDataToArray(this.irArray);
             *      System.Buffer.BlockCopy(this.irArray, 0, this.byteIRArray, 0, this.kinect.InfraredFrameSource.FrameDescription.Height * this.kinect.InfraredFrameSource.FrameDescription.Width * BYTES_PER_IR_PIXEL);
             *      System.Buffer.BlockCopy(BitConverter.GetBytes(utcTime), 0, this.byteIRArray, this.kinect.InfraredFrameSource.FrameDescription.Height * this.kinect.InfraredFrameSource.FrameDescription.Width * BYTES_PER_IR_PIXEL, sizeof(double));
             *      this.irConnector.Broadcast(this.byteIRArray);
             *  }
             * }
             *
             * using (BodyFrame bodyFrame = multiSourceFrame.BodyFrameReference.AcquireFrame())
             * {
             *  if (bodyFrame != null)
             *  {
             *      bodyFrame.GetAndRefreshBodyData(this.bodyArray);
             *      string jsonString = JsonConvert.SerializeObject(this.bodyArray);
             *      int diff = 28000 - jsonString.Length;
             *      for (int i = 0; i < diff;i++ )
             *      {
             *          jsonString += " ";
             *      }
             *      byte[] bodyByteArray = new byte[jsonString.Length*sizeof(char) + sizeof(double)];
             *      System.Buffer.BlockCopy(jsonString.ToCharArray(), 0, bodyByteArray, 0, jsonString.Length * sizeof(char));
             *      System.Buffer.BlockCopy(BitConverter.GetBytes(utcTime), 0, bodyByteArray, jsonString.Length * sizeof(char),sizeof(double));
             *      this.bodyConnector.Broadcast(bodyByteArray);
             *  }
             * }*/
        }
示例#21
0
        private static void Main(string[] args)
        {
            //new ConvexityDefect();
            
            using (IplImage imgSrc = new IplImage(@"img\shapes.png", LoadMode.Color))
            using (IplImage imgBinary = new IplImage(imgSrc.Size, BitDepth.U8, 1))
            using (IplImage imgRender = new IplImage(imgSrc.Size, BitDepth.U8, 3))
            using (IplImage imgContour = new IplImage(imgSrc.Size, BitDepth.U8, 3))
            using (IplImage imgPolygon = new IplImage(imgSrc.Size, BitDepth.U8, 3))
            {
                Cv.CvtColor(imgSrc, imgBinary, ColorConversion.BgrToGray);
                Cv.Threshold(imgBinary, imgBinary, 100, 255, ThresholdType.Binary);

                CvBlobs blobs = new CvBlobs();
                blobs.Label(imgBinary);
                
                foreach (KeyValuePair<int, CvBlob> item in blobs)
                {
                    CvBlob b = item.Value;
                    Console.WriteLine("{0} | Centroid:{1} Area:{2}", item.Key, b.Centroid, b.Area);

                    CvContourChainCode cc = b.Contour;
                    cc.Render(imgContour);
                    double perimeter = cc.Perimeter();

                    CvContourPolygon polygon = cc.ConvertToPolygon();
                    foreach (CvPoint p in polygon)
                    {
                        //imgPolygon.Rectangle(p.X, p.Y, p.X + 1, p.Y + 1, CvColor.Red);
                    }

                    CvContourPolygon convexHull = polygon.ContourConvexHull();
                    //imgPolygon.Zero();
                    convexHull.Render(imgPolygon);
                }

                blobs.RenderBlobs(imgSrc, imgRender);

                using (new CvWindow("src", imgSrc))
                using (new CvWindow("binary", imgBinary))
                using (new CvWindow("render", imgRender))
                using (new CvWindow("contour", imgContour))
                using (new CvWindow("polygon vertices", imgPolygon))
                {
                    Cv.WaitKey(0);
                }
            }
        }