/// <summary> /// 实现功能: 基于Frequency-tuned 的图像显著性检测 /// 参考论文: Frequency-tuned Salient Region Detection, Radhakrishna Achantay, Page 4-5, 2009 CVPR /// http://ivrgwww.epfl.ch/supplementary_material/RK_CVPR09/ /// 参考论文作者RGB转LAB的浮点版本 /// </summary> /// <param name="srcBitmap"></param> /// <returns></returns> public static Bitmap SalientRegionDetectionBasedOnFT(Bitmap srcBitmap) { int width = srcBitmap.Width, height = srcBitmap.Height; Rectangle rect = new Rectangle(0, 0, width, height); BitmapData srcBmData = srcBitmap.LockBits(rect, ImageLockMode.ReadWrite, PixelFormat.Format24bppRgb); Bitmap dstBitmap = BasicMethodClass.CreateGrayscaleImage(width, height); BitmapData dstBmData = dstBitmap.LockBits(rect, ImageLockMode.ReadWrite, PixelFormat.Format8bppIndexed); IntPtr srcScan = srcBmData.Scan0; IntPtr dstScan = dstBmData.Scan0; unsafe { double * srcP = (double *)(void *)srcScan; byte * dstP = (byte *)(void *)dstScan; int Index = 0, CurIndex = 0, srcStride = srcBmData.Stride, dstStride = dstBmData.Stride, X, Y; double MeanL = 0, MeanA = 0, MeanB = 0; double[] LabF; double[] DistMap = new double[dstStride * height]; LabF = BasicMethodClass.sRGBtoXYZ(srcBmData, width, height, out MeanL, out MeanA, out MeanB); // LabF = BasicMethodClass.GaussianSmooth(LabF, width, srcBmData.Stride, srcBmData.Height); double maxval = 0; double minval = double.MaxValue; int i = 0; for (Y = 0; Y < height; Y++) { Index = Y * srcStride; CurIndex = Y * dstStride; // for (X = 0; X < width; X++) // 计算像素的显著性 { //此处有时会出现数组越界,原因暂时未知(已解决,目标8位图有3字节的对齐) double curValue = (MeanL - LabF[Index]) * (MeanL - LabF[Index]) + (MeanA - LabF[Index + 1]) * (MeanA - LabF[Index + 1]) + (MeanB - LabF[Index + 2]) * (MeanB - LabF[Index + 2]); DistMap[CurIndex] = curValue; Index += 3; CurIndex++; if (maxval < curValue) { maxval = curValue; } if (minval > curValue) { minval = curValue; } i++; } } BasicMethodClass.Normalize(DistMap, dstBmData.Stride, height, maxval, minval, dstP); //写入序列化函数中。。 } srcBitmap.UnlockBits(srcBmData); dstBitmap.UnlockBits(dstBmData); return(dstBitmap); }
public static Bitmap SalientRegionDetectionBasedOnFT(Bitmap srcBitmap, float distcof) { int width = srcBitmap.Width, height = srcBitmap.Height; Rectangle rect = new Rectangle(0, 0, width, height); BitmapData srcBmData = srcBitmap.LockBits(rect, ImageLockMode.ReadWrite, PixelFormat.Format24bppRgb); Bitmap dstBitmap = BasicMethodClass.CreateGrayscaleImage(width, height); BitmapData dstBmData = dstBitmap.LockBits(rect, ImageLockMode.ReadWrite, PixelFormat.Format8bppIndexed); IntPtr srcScan = srcBmData.Scan0; IntPtr dstScan = dstBmData.Scan0; unsafe { double * srcP = (double *)(void *)srcScan; byte * dstP = (byte *)(void *)dstScan; int Index = 0, CurIndex = 0, srcStride = srcBmData.Stride, dstStride = dstBmData.Stride, X, Y; double MeanL = 0, MeanA = 0, MeanB = 0; double[] LabF; double[] DistMap = new double[dstStride * height]; LabF = BasicMethodClass.sRGBtoXYZ(srcBmData, width, height, out MeanL, out MeanA, out MeanB); // LabF = BasicMethodClass.GaussianSmooth(LabF, width, srcBmData.Stride, srcBmData.Height); //加入显著位置权重 int wk = (int)(width / 2), hk = (int)(height / 2); for (Y = 0; Y < height; Y++) { Index = Y * srcStride; CurIndex = Y * dstStride; // for (X = 0; X < width; X++) // 计算像素的显著性 { //此处有时会出现数组越界,原因暂时未知(已解决,目标8位图有3字节的对齐) DistMap[CurIndex] = (MeanL - LabF[Index]) * (MeanL - LabF[Index]) + (MeanA - LabF[Index + 1]) * (MeanA - LabF[Index + 1]) + (MeanB - LabF[Index + 2]) * (MeanB - LabF[Index + 2]); DistMap[CurIndex] *= Math.Max(1 - (Math.Abs(wk - X) + Math.Abs(hk - Y)) / (wk + hk + 1.0), distcof); Index += 3; CurIndex++; } } DistMap = BasicMethodClass.Normalize(DistMap, dstBmData.Stride, height, dstP); //写入序列化函数中。。 } srcBitmap.UnlockBits(srcBmData); dstBitmap.UnlockBits(dstBmData); return(dstBitmap); }