Esempio n. 1
0
        public void ProcessImage(Image <Gray, byte> grayFrame)
        {
            if (equalizeHist)
            {
                grayFrame._EqualizeHist();//autocontrast
            }
            //smoothed
            Image <Gray, byte> smoothedGrayFrame = grayFrame.PyrDown();

            smoothedGrayFrame = smoothedGrayFrame.PyrUp();
            //canny
            Image <Gray, byte> cannyFrame = null;

            if (noiseFilter)
            {
                cannyFrame = smoothedGrayFrame.Canny(new Gray(cannyThreshold), new Gray(cannyThreshold));
            }
            //smoothing
            if (blur)
            {
                grayFrame = smoothedGrayFrame;
            }
            //binarize
            CvInvoke.cvAdaptiveThreshold(grayFrame, grayFrame, 255, Emgu.CV.CvEnum.ADAPTIVE_THRESHOLD_TYPE.CV_ADAPTIVE_THRESH_MEAN_C, Emgu.CV.CvEnum.THRESH.CV_THRESH_BINARY, adaptiveThresholdBlockSize + adaptiveThresholdBlockSize % 2 + 1, adaptiveThresholdParameter);
            //
            grayFrame._Not();
            //
            if (addCanny)
            {
                if (cannyFrame != null)
                {
                    grayFrame._Or(cannyFrame);
                }
            }
            //
            this.binarizedFrame = grayFrame;

            //dilate canny contours for filtering
            if (cannyFrame != null)
            {
                cannyFrame = cannyFrame.Dilate(3);
            }

            //find contours
            var sourceContours = grayFrame.FindContours(Emgu.CV.CvEnum.CHAIN_APPROX_METHOD.CV_CHAIN_APPROX_NONE, Emgu.CV.CvEnum.RETR_TYPE.CV_RETR_LIST);

            //filter contours
            contours = FilterContours(sourceContours, cannyFrame, grayFrame.Width, grayFrame.Height);
            //find templates
            lock (foundTemplates)
                foundTemplates.Clear();
            samples.Clear();

            lock (templates)
                Parallel.ForEach <Contour <Point> >(contours, (contour) =>
                {
                    var arr         = contour.ToArray();
                    Template sample = new Template(arr, contour.Area, samples.templateSize);
                    lock (samples)
                        samples.Add(sample);

                    if (!onlyFindContours)
                    {
                        FoundTemplateDesc desc = finder.FindTemplate(templates, sample);

                        if (desc != null)
                        {
                            lock (foundTemplates)
                                foundTemplates.Add(desc);
                        }
                    }
                }
                                                    );
            //
            FilterByIntersection(ref foundTemplates);
        }
Esempio n. 2
0
        public void ProcessImage(Image <Gray, byte> grayFrame)
        {
            if (equalizeHist)
            {
                grayFrame._EqualizeHist();//autocontrast
            }
            //高斯平滑
            Image <Gray, byte> smoothedGrayFrame = grayFrame.PyrDown();

            smoothedGrayFrame = smoothedGrayFrame.PyrUp();

            //canny
            Image <Gray, byte> cannyFrame = null;

            if (noiseFilter)
            {
                cannyFrame = smoothedGrayFrame.Canny(cannyThreshold, cannyThreshold);
            }

            //smoothing
            if (blur)
            {
                grayFrame = smoothedGrayFrame;
            }

            //局部自适应阈值二值化,阈值本身作为了一个变量,检测更有效
            //CvInvoke.cvAdaptiveThreshold(grayFrame, grayFrame, 255, Emgu.CV.CvEnum.ADAPTIVE_THRESHOLD_TYPE.CV_ADAPTIVE_THRESH_MEAN_C, Emgu.CV.CvEnum.THRESH.CV_THRESH_BINARY, adaptiveThresholdBlockSize + adaptiveThresholdBlockSize % 2 + 1, adaptiveThresholdParameter);
            CvInvoke.AdaptiveThreshold(grayFrame, grayFrame, 255, Emgu.CV.CvEnum.AdaptiveThresholdType.MeanC, Emgu.CV.CvEnum.ThresholdType.Binary, adaptiveThresholdBlockSize + adaptiveThresholdBlockSize % 2 + 1, adaptiveThresholdParameter);

            //
            grayFrame._Not();
            //
            if (addCanny)
            {
                if (cannyFrame != null)
                {
                    grayFrame._Or(cannyFrame);    //试验了一下,这样轮廓会更加明显
                }
            }
            //
            this.binarizedFrame = grayFrame;

            //dilate canny contours for filtering
            //膨胀操作,使白色区域的像素增加一圈,看起来轮廓更细了
            if (cannyFrame != null)
            {
                cannyFrame = cannyFrame.Dilate(3);
            }

            //find contours
            VectorOfVectorOfPoint sourceContours = new VectorOfVectorOfPoint();
            CvInvoke.FindContours(grayFrame, sourceContours, null, Emgu.CV.CvEnum.RetrType.List, Emgu.CV.CvEnum.ChainApproxMethod.ChainApproxNone);
            //var sourceContours = grayFrame.FindContours(Emgu.CV.CvEnum.CHAIN_APPROX_METHOD.CV_CHAIN_APPROX_NONE, Emgu.CV.CvEnum.RETR_TYPE.CV_RETR_LIST);

            //filter contours
            contours = FilterContours(sourceContours, cannyFrame, grayFrame.Width, grayFrame.Height);


            //find templates
            lock (foundTemplates)
                foundTemplates.Clear();
            samples.Clear();

            lock (templates)   //多线程,异步执行
                Parallel.ForEach <VectorOfPoint>(contours, (contour) =>
                {
                    var arr         = contour.ToArray();
                    Template sample = new Template(arr, CvInvoke.ContourArea(contour), samples.templateSize);
                    lock (samples)
                        samples.Add(sample);

                    if (!onlyFindContours)
                    {
                        FoundTemplateDesc desc = finder.FindTemplate(templates, sample);

                        if (desc != null)
                        {
                            lock (foundTemplates)
                                foundTemplates.Add(desc);
                        }
                    }
                }
                                                 );
            //
            FilterByIntersection(ref foundTemplates);
        }
Esempio n. 3
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        private void DrawAugmentedReality(FoundTemplateDesc found, Graphics gr)
        {
            string fileName = Path.GetDirectoryName(templateFile) + "\\" + found.template.name;
            if (!AugmentedRealityImages.ContainsKey(fileName))
            {
                if (!File.Exists(fileName)) return;
                AugmentedRealityImages[fileName] = Image.FromFile(fileName);
            }
            Image img = AugmentedRealityImages[fileName];
            Point p = found.sample.contour.SourceBoundingRect.Center();
            var state = gr.Save();
            gr.TranslateTransform(p.X, p.Y);

            MessageBox.Show((180f * found.angle / Math.PI).ToString());

            gr.RotateTransform((float)(180f * found.angle / Math.PI));
            gr.ScaleTransform((float)(found.scale), (float)(found.scale));
            gr.DrawImage(img, new Point(-img.Width/2, -img.Height/2));
            gr.Restore(state);
        }
Esempio n. 4
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        public FoundTemplateDesc FindTemplate(Templates templates, Template sample)
        {
            FoundTemplateDesc desc2;
            double            num     = 0.0;
            double            angle   = 0.0;
            Complex           complex = new Complex();
            Template          objA    = null;

            using (List <Template> .Enumerator enumerator = templates.GetEnumerator())
            {
                while (true)
                {
                    if (!enumerator.MoveNext())
                    {
                        break;
                    }
                    Template current = enumerator.Current;
                    if ((Math.Abs((int)(sample.autoCorrDescriptor1 - current.autoCorrDescriptor1)) <= this.maxACFDescriptorDeviation) && ((Math.Abs((int)(sample.autoCorrDescriptor2 - current.autoCorrDescriptor2)) <= this.maxACFDescriptorDeviation) && ((Math.Abs((int)(sample.autoCorrDescriptor3 - current.autoCorrDescriptor3)) <= this.maxACFDescriptorDeviation) && (Math.Abs((int)(sample.autoCorrDescriptor4 - current.autoCorrDescriptor4)) <= this.maxACFDescriptorDeviation))))
                    {
                        double num3 = 0.0;
                        if (!this.checkACF || (current.autoCorr.NormDot(sample.autoCorr).Norma >= this.minACF))
                        {
                            if (this.checkICF)
                            {
                                complex = current.contour.InterCorrelation(sample.contour).FindMaxNorma();
                                num3    = complex.Norma / (current.contourNorma * sample.contourNorma);
                                if (num3 < this.minICF)
                                {
                                    continue;
                                }
                                if (Math.Abs(complex.Angle) > this.maxRotateAngle)
                                {
                                    continue;
                                }
                            }
                            if ((!current.preferredAngleNoMore90 || (Math.Abs(complex.Angle) < 1.5707963267948966)) && (num3 >= num))
                            {
                                num   = num3;
                                objA  = current;
                                angle = complex.Angle;
                            }
                        }
                    }
                }
            }
            if ((objA != null) && (objA.name == this.antiPatternName))
            {
                objA = null;
            }
            if (ReferenceEquals(objA, null))
            {
                desc2 = null;
            }
            else
            {
                desc2 = new FoundTemplateDesc {
                    template = objA,
                    rate     = num,
                    sample   = sample,
                    angle    = angle
                };
            }
            return(desc2);
        }
Esempio n. 5
0
        public void ProcessImage(Image <Gray, byte> grayFrame)
        {
            Action <Contour <Point> > body = null;

            if (this.equalizeHist)
            {
                grayFrame._EqualizeHist();
            }
            Image <Gray, byte> image  = grayFrame.PyrDown().PyrUp();
            Image <Gray, byte> image2 = null;

            if (this.noiseFilter)
            {
                image2 = image.Canny(new Gray((double)this.cannyThreshold), new Gray((double)this.cannyThreshold));
            }
            if (this.blur)
            {
                grayFrame = image;
            }
            CvInvoke.cvAdaptiveThreshold((IntPtr)grayFrame, (IntPtr)grayFrame, 255.0, ADAPTIVE_THRESHOLD_TYPE.CV_ADAPTIVE_THRESH_MEAN_C, THRESH.CV_THRESH_BINARY, (this.adaptiveThresholdBlockSize + (this.adaptiveThresholdBlockSize % 2)) + 1, 1.0);
            grayFrame._Not();
            if (this.addCanny && (image2 != null))
            {
                grayFrame._Or(image2);
            }
            this.binarizedFrame = grayFrame;
            if (image2 != null)
            {
                image2 = image2.Dilate(3);
            }
            Contour <Point> contours = grayFrame.FindContours(CHAIN_APPROX_METHOD.CV_CHAIN_APPROX_NONE, RETR_TYPE.CV_RETR_LIST);

            this.contours = this.FilterContours(contours, image2, grayFrame.Width, grayFrame.Height);
            lock (this.foundTemplates)
            {
                this.foundTemplates.Clear();
            }
            this.samples.Clear();
            lock (this.templates)
            {
                if (body == null)
                {
                    body = delegate(Contour <Point> contour) {
                        Template item = new Template(contour.ToArray(), contour.Area, this.samples.templateSize);
                        lock (this.samples)
                        {
                            this.samples.Add(item);
                        }
                        if (!this.onlyFindContours)
                        {
                            FoundTemplateDesc desc = this.finder.FindTemplate(this.templates, item);
                            if (desc != null)
                            {
                                lock (this.foundTemplates)
                                {
                                    this.foundTemplates.Add(desc);
                                }
                            }
                        }
                    };
                }
                Parallel.ForEach <Contour <Point> >(this.contours, body);
            }
            FilterByIntersection(ref this.foundTemplates);
        }