Exemple #1
0
        private void UdpateFrame(int n)
        {
            if (Frames == null || n >= Frames.Count - Step || n < 0)
            {
                isRunning = false;
                nextFrameTimer.Stop();
                return;
            }

            Dispatcher.BeginInvoke((Action)(() =>
            {
                currentFrame = n;
                var frame = frames[n];
                var frame2 = frames[n + Step];

                var mat = CvInvoke.Imread(frame.ImageFile, Emgu.CV.CvEnum.ImreadModes.Color).ToImage <Bgr, byte>();
                var mat2 = CvInvoke.Imread(frame2.ImageFile, Emgu.CV.CvEnum.ImreadModes.Color).ToImage <Bgr, byte>();

                try
                {
                    double maxDistance = 20.0;
                    OdometerFrame odometerFrame = FindTransformation.GetOdometerFrame(mat.Mat, mat2.Mat, Detector, Descriptor, DistanceType, maxDistance, K);
                    if (odometerFrame != null)
                    {
                        videoViewer.Source = new BitmapImage(new Uri(frame.ImageFile, UriKind.Absolute));
                        recursive = true;
                        frameProgression.Value = n;
                        recursive = false;
                        frameCurrentLabel.Content = n;

                        totalRotation = odometerFrame.RotationMatrix.Multiply(totalRotation);
                        var rotationEuler = RotationConverter.MatrixToEulerXYZ(totalRotation);
                        totalTranslation = totalTranslation + odometerFrame.Translation;

                        var refTranslation = frame2.Odometry.Translation.Sub(frames[0].Odometry.Translation);
                        var refRotation = frames[0].Odometry.RotationMatrix.T().Multiply(frame2.Odometry.RotationMatrix);
                        var refRotationEuler = RotationConverter.MatrixToEulerXYZ(refRotation);

                        var refTranslationDiff = frame2.Odometry.Translation.Sub(frame.Odometry.Translation);
                        var refRotationDiff = frame.Odometry.RotationMatrix.T().Multiply(frame2.Odometry.RotationMatrix);
                        var refRotationDiffEuler = RotationConverter.MatrixToEulerXYZ(refRotationDiff);

                        infoReference.Text = FormatInfo(refTranslation, refRotationEuler, "Ref Cumulative");
                        infoReferenceDiff.Text = FormatInfo(refTranslationDiff, refRotationDiffEuler, "Ref Diff");
                        infoComputed.Text = FormatInfo(odometerFrame.Translation, odometerFrame.Rotation, "Comp Diff");
                        infoComputedCumulative.Text = FormatInfo(totalTranslation, rotationEuler, "Comp Cumulative");
                        infoK.Text = FormatInfoK(odometerFrame);

                        MatchDrawer.DrawFeatures(mat.Mat, mat2.Mat, odometerFrame.Match, TakeBest, matchedView);
                    }
                }
                catch (Exception e)
                {
                    infoComputed.Text = "Error!";
                }

                if (isRunning)
                {
                    nextFrameTimer.Start();
                }
            }));
        }
Exemple #2
0
        private void UdpateFrame(int n)
        {
            if (Frames == null || n >= Frames.Count - Step || n < 0)
            {
                isRunning = false;
                nextFrameTimer.Stop();
                return;
            }

            Dispatcher.BeginInvoke((Action)(() =>
            {
                currentFrame = n;

                try
                {
                    var frame = frames[n];
                    var frame2 = frames[n + Step];

                    frame = Undistort(frame);
                    frame2 = Undistort(frame2);

                    var mat = frame.ToImage <Bgr, byte>();
                    var mat2 = frame2.ToImage <Bgr, byte>();

                    double maxDistance = MaxDistance(frame);

                    Func <int, int, MatchingResult> matcher = (i1, i2) =>
                    {
                        if (!features.TryGetValue(i1, out var features1))
                        {
                            MatchImagePair.FindFeatures(frames[i1], Detector, Descriptor, out MKeyPoint[] kps1, out Mat desc1);
                            features1 = new MatchingResult()
                            {
                                LeftKps = kps1,
                                LeftDescriptors = desc1
                            };
                        }

                        if (!features.TryGetValue(i2, out var features2))
                        {
                            MatchImagePair.FindFeatures(frames[i2], Detector, Descriptor, out MKeyPoint[] kps2, out Mat desc2);
                            features2 = new MatchingResult()
                            {
                                LeftKps = kps2,
                                LeftDescriptors = desc2
                            };
                        }

                        return(MatchImagePair.Match(features1.LeftKps, features1.LeftDescriptors, features2.LeftKps, features2.LeftDescriptors, DistanceType, maxDistance));
                    };

                    OdometerFrame odometerFrame = scaler.NextFrame(n, n + Step, matcher);
                    // OdometerFrame odometerFrame = FindTransformation.GetOdometerFrame(mat.Mat, mat2.Mat, Detector, Descriptor, DistanceType, maxDistance, K);
                    if (odometerFrame != null)
                    {
                        videoViewer.Source = ImageLoader.ImageSourceForBitmap(frame.Bitmap);
                        recursive = true;
                        frameProgression.Value = n;
                        recursive = false;
                        frameCurrentLabel.Content = n;

                        totalRotation = odometerFrame.RotationMatrix.Multiply(totalRotation);
                        var rotationEuler = RotationConverter.MatrixToEulerXYZ(totalRotation);
                        totalTranslation = totalTranslation + odometerFrame.Translation;

                        infoComputed.Text = FormatInfo(odometerFrame.Translation, odometerFrame.Rotation, "Comp Diff");
                        infoComputedCumulative.Text = FormatInfo(totalTranslation, rotationEuler, "Comp Cumulative");
                        infoK.Text = FormatInfoK(odometerFrame);

                        MatchDrawer.DrawFeatures(mat.Mat, mat2.Mat, odometerFrame.Match, TakeBest, matchedView);
                    }
                }
                catch (Exception e)
                {
                    infoComputed.Text = "Error!";
                }

                if (isRunning)
                {
                    nextFrameTimer.Start();
                }
            }));
        }
        public void ProcessImages(Mat left, Mat middle, Mat right, Feature2D detector, Feature2D descriptor, DistanceType distance)
        {
            double maxDistance = 20.0;
            var    match12     = MatchImagePair.Match(left, middle, detector, descriptor, distance, maxDistance);
            var    match23     = MatchImagePair.Match(middle, right, detector, descriptor, distance, maxDistance);
            var    match13     = MatchImagePair.Match(left, right, detector, descriptor, distance, maxDistance);

            TripletMatch tmatch = new TripletMatch();

            List <MDMatch> m12 = new List <MDMatch>();
            List <MDMatch> m23 = new List <MDMatch>();

            var left1    = match12.LeftPoints;
            var right1   = match12.RightPoints;
            var left2    = match23.LeftPoints;
            var left2_X  = MatchClosePoints.SortByX(match23.LeftPoints);
            var right2   = match23.RightPoints;
            var left3    = match13.LeftPoints;
            var right3   = match13.RightPoints;
            var right3_X = MatchClosePoints.SortByX(match13.LeftPoints);

            for (int idx12 = 0; idx12 < left1.Size; ++idx12)
            {
                var p1    = left1[idx12];
                var p2    = right1[idx12];
                int idx23 = IndexOf_X(left2_X, p2);
                if (idx23 != -1)
                {
                    var p3    = right2[idx23];
                    int idx13 = IndexOf_X(right3_X, p1);
                    if (idx13 != -1)
                    {
                        if (AreEqual(left1[idx12], left3[idx13]))
                        {
                            tmatch.Left.Add(p1);
                            tmatch.Middle.Add(p2);
                            tmatch.Right.Add(p3);

                            m12.Add(match12.Matches[idx12]);
                            m23.Add(match23.Matches[idx23]);
                        }
                    }
                }
            }

            match12.Matches = new VectorOfDMatch(m12.ToArray());
            match23.Matches = new VectorOfDMatch(m23.ToArray());

            MatchDrawer.DrawFeatures(left, right, match12, 1.0, bottomView);
            MatchDrawer.DrawFeatures(left, right, match23, 1.0, upperView);

            var F12 = ComputeMatrix.F(new VectorOfPointF(tmatch.Left.ToArray()), new VectorOfPointF(tmatch.Middle.ToArray()));
            var F23 = ComputeMatrix.F(new VectorOfPointF(tmatch.Middle.ToArray()), new VectorOfPointF(tmatch.Right.ToArray()));
            var F13 = ComputeMatrix.F(new VectorOfPointF(tmatch.Left.ToArray()), new VectorOfPointF(tmatch.Right.ToArray()));

            if (F12 == null || F23 == null || F13 == null)
            {
                info.Text = "Too few matches";
                return;
            }

            var Fs = new List <Image <Arthmetic, double> > {
                F12, F23, F13
            };

            var K = EstimateCameraFromImageSequence.K(Fs, left.Width, right.Height);

            var Es = new List <Image <Arthmetic, double> >
            {
                ComputeMatrix.E(F12, K),
                ComputeMatrix.E(F23, K),
                ComputeMatrix.E(F13, K)
            };

            FindTransformation.DecomposeToRTAndTriangulate(tmatch.Left, tmatch.Middle, K, Es[0],
                                                           out Image <Arthmetic, double> R12, out Image <Arthmetic, double> t12, out Image <Arthmetic, double> X12);
            FindTransformation.DecomposeToRTAndTriangulate(tmatch.Middle, tmatch.Right, K, Es[1],
                                                           out Image <Arthmetic, double> R23, out Image <Arthmetic, double> t23, out Image <Arthmetic, double> X23);
            FindTransformation.DecomposeToRTAndTriangulate(tmatch.Left, tmatch.Right, K, Es[2],
                                                           out Image <Arthmetic, double> R13, out Image <Arthmetic, double> t13, out Image <Arthmetic, double> X13);

            var Rs = new List <Image <Arthmetic, double> >
            {
                RotationConverter.MatrixToEulerXYZ(R12),
                RotationConverter.MatrixToEulerXYZ(R23),
                RotationConverter.MatrixToEulerXYZ(R13)
            };
            var ts = new List <Image <Arthmetic, double> >
            {
                t12,
                t23,
                t13
            };

            PrintMatricesInfo(Es, K, Rs, ts);
        }
 private void DrawFeatures(Mat left, Mat right, MatchingResult match, double takeBest)
 {
     MatchDrawer.DrawFeatures(left, right, match, takeBest, macthedView);
     MatchDrawer.DrawCricles(leftView, left, match.LeftKps);
     MatchDrawer.DrawCricles(rightView, right, match.RightKps);
 }