Exemplo n.º 1
0
 private static extern Int32 ucr_query(double[] q, Int32 m, double r, double[] buffer, Int32 buflen, ref ucr_index result);
Exemplo n.º 2
0
        // Do some live capturing in here...
        private void mWorker_GetSeries(object sender, DoWorkEventArgs e)
        {
            const int windowSize = 400;

            List<Tuple<double,double>> y = new List<Tuple<double, double>>(windowSize);
            mSerialPort.DiscardInBuffer();

            while (!mTestWorker.CancellationPending) {
                GetSerialData(ref y);

                // continue if not enough input data sampled...
                if (y.Count < windowSize)
                    continue;

                // resize captured data to windowSize - default nothing should be removed...
                //y.RemoveRange(windowSize, y.Count - windowSize);

                var minValue = double.MaxValue;
                Int64 ValXIndex = 0;
                Int64 ValYIndex = 0;
                string Pattern = "";

                double[] bufX = y.Select(x => x.Item1).ToArray();
                double[] bufY = y.Select(x => x.Item2).ToArray();
                ucr_index resultX = new ucr_index();
                ucr_index resultY = new ucr_index();
                // apply recorded series to all trained
                foreach (var item in mTrainedSeries) {
                    // compare each trained sequence with currently captured one - X values only atm
                    double[] trainedX = item.Value.Select(x => x.Item1).ToArray();
                    double[] trainedY = item.Value.Select(x => x.Item2).ToArray();

                    // compare x and y signals
                    if ((ucr_query(trainedX, trainedX.Length, 0.5, bufX, bufX.Length, ref resultX) < 0) /*||
                        (ucr_query(trainedY, trainedY.Length, 0.5, bufY, bufY.Length, ref resultY) < 0)*/) {
                        continue;
                    }

                    double result = resultX.value + resultY.value;
                    if (result < minValue) {
                        minValue = result;
                        ValXIndex = resultX.index;
                        ValYIndex = resultY.index;
                        Pattern = item.Key;
                    }
                }

                if (minValue < 3.0) {
                    mDispatcher.Invoke(() => {
                        TimerLabel.Content = Pattern + " DETECTED" + "\nCost: " + minValue;
                        if (Pattern == "Serie #0") {
                            DetectionLight1.Fill = new System.Windows.Media.SolidColorBrush(System.Windows.Media.Color.FromRgb(0x00, 0xFF, 0x00));
                        } else if (Pattern == "Serie #1") {
                            DetectionLight2.Fill = new System.Windows.Media.SolidColorBrush(System.Windows.Media.Color.FromRgb(0x00, 0xFF, 0x00));
                        } else if (Pattern == "Serie #2") {
                            DetectionLight3.Fill = new System.Windows.Media.SolidColorBrush(System.Windows.Media.Color.FromRgb(0x00, 0xFF, 0x00));
                        } else {
                            DetectionLightx.Fill = new System.Windows.Media.SolidColorBrush(System.Windows.Media.Color.FromRgb(0x00, 0xFF, 0x00));
                        }
                    });

                    // clear found pattern from sampled signal to ensure that it is only detected once
                    int cnt = mTrainedSeries[Pattern].Count;
                    int start = (int)Math.Min(ValXIndex, ValYIndex);
                    for (int i = start; i < start + cnt; i++) {
                        y[i] = y[start];
                    }
                    //y.RemoveRange(start, cnt);
                    //y.InsertRange(start, new List<Tuple<double, double>>(cnt));

                } else {
                    // print result
                    mDispatcher.Invoke(() => {
                        TimerLabel.Content = Pattern + "\nCost: " + minValue;
                        DetectionLight1.Fill = new System.Windows.Media.SolidColorBrush(System.Windows.Media.Color.FromRgb(0xFF, 0x00, 0x00));
                        DetectionLight2.Fill = new System.Windows.Media.SolidColorBrush(System.Windows.Media.Color.FromRgb(0xFF, 0x00, 0x00));
                        DetectionLight3.Fill = new System.Windows.Media.SolidColorBrush(System.Windows.Media.Color.FromRgb(0xFF, 0x00, 0x00));
                        DetectionLightx.Fill = new System.Windows.Media.SolidColorBrush(System.Windows.Media.Color.FromRgb(0xFF, 0x00, 0x00));
                    });
                }

                //y.RemoveAt(0);
                y.RemoveRange(0, 50);       // discard values for a half second
            }

            e.Cancel = true;
        }