Exemplo n.º 1
0
        private void buttonCompute_Click(object sender, EventArgs e)
        {
            var filterCount  = int.Parse(textBoxSize.Text);
            var samplingRate = _signal.SamplingRate;
            var fftSize      = int.Parse(textBoxFftSize.Text);
            var lowFreq      = float.Parse(textBoxLowFreq.Text);
            var highFreq     = float.Parse(textBoxHighFreq.Text);

            Tuple <double, double, double>[] bands;
            float[][]  filterbank = null;
            VtlnWarper vtln       = null;

            if (checkBoxVtln.Checked)
            {
                var alpha    = float.Parse(textBoxVtlnAlpha.Text);
                var vtlnLow  = float.Parse(textBoxVtlnLow.Text);
                var vtlnHigh = float.Parse(textBoxVtlnHigh.Text);

                vtln = new VtlnWarper(alpha, lowFreq, highFreq, vtlnLow, vtlnHigh);
            }

            switch (comboBoxFilterbank.Text)
            {
            case "Mel":
                bands = FilterBanks.MelBands(filterCount, fftSize, samplingRate, lowFreq, highFreq, checkBoxOverlap.Checked);
                break;

            case "Mel Slaney":
                bands      = FilterBanks.MelBandsSlaney(filterCount, fftSize, samplingRate, lowFreq, highFreq, checkBoxOverlap.Checked);
                filterbank = FilterBanks.MelBankSlaney(filterCount, fftSize, samplingRate, lowFreq, highFreq, checkBoxNormalize.Checked, vtln);
                break;

            case "Bark":
                bands = FilterBanks.BarkBands(filterCount, fftSize, samplingRate, lowFreq, highFreq, checkBoxOverlap.Checked);
                break;

            case "Bark Slaney":
                bands      = FilterBanks.BarkBandsSlaney(filterCount, fftSize, samplingRate, lowFreq, highFreq, checkBoxOverlap.Checked);
                filterbank = FilterBanks.BarkBankSlaney(filterCount, fftSize, samplingRate, lowFreq, highFreq);
                break;

            case "Critical bands":
                bands = FilterBanks.CriticalBands(filterCount, fftSize, samplingRate, lowFreq, highFreq);
                break;

            case "Octave bands":
                bands = FilterBanks.OctaveBands(filterCount, fftSize, samplingRate, lowFreq, highFreq, checkBoxOverlap.Checked);
                break;

            case "ERB":
                bands      = null;
                filterbank = FilterBanks.Erb(filterCount, fftSize, samplingRate, lowFreq, highFreq);
                break;

            default:
                bands = FilterBanks.HerzBands(filterCount, fftSize, samplingRate, lowFreq, highFreq, checkBoxOverlap.Checked);
                break;
            }

            if (bands != null && filterbank == null)
            {
                switch (comboBoxShape.Text)
                {
                case "Triangular":
                    filterbank = FilterBanks.Triangular(fftSize, samplingRate, bands, vtln, Utils.Scale.HerzToMel);
                    break;

                case "Trapezoidal":
                    filterbank = FilterBanks.Trapezoidal(fftSize, samplingRate, bands, vtln);
                    break;

                case "BiQuad":
                    filterbank = FilterBanks.BiQuad(fftSize, samplingRate, bands);
                    break;

                default:
                    filterbank = FilterBanks.Rectangular(fftSize, samplingRate, bands, vtln);
                    break;
                }

                if (checkBoxNormalize.Checked)
                {
                    FilterBanks.Normalize(filterCount, bands, filterbank);
                }
            }


            var spectrumType = (SpectrumType)comboBoxSpectrum.SelectedIndex;
            var nonLinearity = (NonLinearityType)comboBoxNonLinearity.SelectedIndex;
            var logFloor     = float.Parse(textBoxLogFloor.Text);

            var mfccExtractor = new MfccExtractor(//samplingRate, 13, 0.025, 0.01,
                samplingRate, 13, 512.0 / samplingRate, 0.01,
                filterbank: filterbank,
                //filterbankSize: 26,
                //highFreq: 8000,
                //preEmphasis: 0.97,
                //lifterSize: 22,
                //includeEnergy: true,
                spectrumType: spectrumType,
                nonLinearity: nonLinearity,
                dctType: comboBoxDct.Text,
                window: WindowTypes.Hamming,
                logFloor: logFloor);

            _mfccVectors = mfccExtractor.ComputeFrom(_signal);


            //_mfccVectors = mfccExtractor.ComputeFrom(_signal * 32768);
            //var mfccVectorsP = mfccExtractor.ParallelComputeFrom(_signal * 32768);

            //for (var i = 0; i < _mfccVectors.Count; i++)
            //{
            //    for (var j = 0; j < _mfccVectors[i].Features.Length; j++)
            //    {
            //        if (Math.Abs(_mfccVectors[i].Features[j] - mfccVectorsP[i].Features[j]) > 1e-32f)
            //        {
            //            MessageBox.Show($"Nope: {i} - {j}");
            //            return;
            //        }

            //        if (Math.Abs(_mfccVectors[i].TimePosition - mfccVectorsP[i].TimePosition) > 1e-32f)
            //        {
            //            MessageBox.Show($"Time: {i} - {j}");
            //            return;
            //        }
            //    }
            //}

            //FeaturePostProcessing.NormalizeMean(_mfccVectors);        // optional (but REQUIRED for PNCC!)
            //FeaturePostProcessing.AddDeltas(_mfccVectors);

            var header = mfccExtractor.FeatureDescriptions;

            //.Concat(mfccExtractor.DeltaFeatureDescriptions)
            //.Concat(mfccExtractor.DeltaDeltaFeatureDescriptions);

            FillFeaturesList(_mfccVectors, header);
            mfccListView.Items[0].Selected = true;

            melFilterBankPanel.Groups = mfccExtractor.FilterBank;

            mfccPanel.Line = _mfccVectors[0].Features;
        }
Exemplo n.º 2
0
        /// <summary>
        /// Constructor
        /// </summary>
        /// <param name="samplingRate"></param>
        /// <param name="featureList"></param>
        /// <param name="frameDuration"></param>
        /// <param name="hopDuration"></param>
        /// <param name="fftSize"></param>
        /// <param name="frequencyBands"></param>
        /// <param name="parameters"></param>
        public Mpeg7SpectralFeaturesExtractor(int samplingRate,
                                              string featureList,
                                              double frameDuration = 0.0256 /*sec*/,
                                              double hopDuration   = 0.010 /*sec*/,
                                              int fftSize          = 0,
                                              Tuple <double, double, double>[] frequencyBands = null,
                                              WindowTypes window = WindowTypes.Hamming,
                                              IReadOnlyDictionary <string, object> parameters = null)

            : base(samplingRate, frameDuration, hopDuration)
        {
            if (featureList == "all" || featureList == "full")
            {
                featureList = FeatureSet;
            }

            var features = featureList.Split(',', '+', '-', ';', ':')
                           .Select(f => f.Trim().ToLower());

            _extractors = features.Select <string, Func <float[], float[], float> >(feature =>
            {
                switch (feature)
                {
                case "sc":
                case "centroid":
                    return(Spectral.Centroid);

                case "ss":
                case "spread":
                    return(Spectral.Spread);

                case "sfm":
                case "flatness":
                    if (parameters?.ContainsKey("minLevel") ?? false)
                    {
                        var minLevel = (float)parameters["minLevel"];
                        return((spectrum, freqs) => Spectral.Flatness(spectrum, minLevel));
                    }
                    else
                    {
                        return((spectrum, freqs) => Spectral.Flatness(spectrum));
                    }

                case "sn":
                case "noiseness":
                    if (parameters?.ContainsKey("noiseFrequency") ?? false)
                    {
                        var noiseFrequency = (float)parameters["noiseFrequency"];
                        return((spectrum, freqs) => Spectral.Noiseness(spectrum, freqs, noiseFrequency));
                    }
                    else
                    {
                        return((spectrum, freqs) => Spectral.Noiseness(spectrum, freqs));
                    }

                case "rolloff":
                    if (parameters?.ContainsKey("rolloffPercent") ?? false)
                    {
                        var rolloffPercent = (float)parameters["rolloffPercent"];
                        return((spectrum, freqs) => Spectral.Rolloff(spectrum, freqs, rolloffPercent));
                    }
                    else
                    {
                        return((spectrum, freqs) => Spectral.Rolloff(spectrum, freqs));
                    }

                case "crest":
                    return((spectrum, freqs) => Spectral.Crest(spectrum));

                case "entropy":
                case "ent":
                    return((spectrum, freqs) => Spectral.Entropy(spectrum));

                case "sd":
                case "decrease":
                    return((spectrum, freqs) => Spectral.Decrease(spectrum));

                case "loud":
                case "loudness":
                    return((spectrum, freqs) => Perceptual.Loudness(spectrum));

                case "sharp":
                case "sharpness":
                    return((spectrum, freqs) => Perceptual.Sharpness(spectrum));

                default:
                    return((spectrum, freqs) => 0);
                }
            }).ToList();

            FeatureDescriptions = features.ToList();

            _fftSize = fftSize > FrameSize ? fftSize : MathUtils.NextPowerOfTwo(FrameSize);
            _fft     = new Fft(_fftSize);

            _window = window;
            if (_window != WindowTypes.Rectangular)
            {
                _windowSamples = Window.OfType(_window, FrameSize);
            }

            _frequencyBands = frequencyBands ?? FilterBanks.OctaveBands(6, _fftSize, samplingRate);
            _filterbank     = FilterBanks.Rectangular(_fftSize, samplingRate, _frequencyBands);

            var cfs = _frequencyBands.Select(b => b.Item2).ToList();

            // insert zero frequency so that it'll be ignored during calculations
            // just like in case of FFT spectrum (0th DC component)
            cfs.Insert(0, 0);
            _frequencies = cfs.ToFloats();

            _parameters = parameters;

            // reserve memory for reusable blocks

            _spectrum       = new float[_fftSize / 2 + 1];          // buffer for magnitude spectrum
            _mappedSpectrum = new float[_filterbank.Length + 1];    // buffer for total energies in bands
            _block          = new float[_fftSize];                  // buffer for currently processed block
            _zeroblock      = new float[_fftSize];                  // just a buffer of zeros for quick memset
        }
Exemplo n.º 3
0
        private void filterbankButton_Click(object sender, EventArgs e)
        {
            var filterCount  = int.Parse(filterCountTextBox.Text);
            var samplingRate = int.Parse(samplingRateTextBox.Text);
            var fftSize      = int.Parse(fftSizeTextBox.Text);
            var lowFreq      = float.Parse(lowFreqTextBox.Text);
            var highFreq     = float.Parse(highFreqTextBox.Text);

            Tuple <double, double, double>[] bands;

            switch (filterbankComboBox.Text)
            {
            case "Mel":
                bands = FilterBanks.MelBands(filterCount, fftSize, samplingRate, lowFreq, highFreq, overlapCheckBox.Checked);
                break;

            case "Bark":
                bands = FilterBanks.BarkBands(filterCount, fftSize, samplingRate, lowFreq, highFreq, overlapCheckBox.Checked);
                break;

            case "Critical bands":
                bands = FilterBanks.CriticalBands(filterCount, fftSize, samplingRate, lowFreq, highFreq);
                break;

            case "Octave bands":
                bands = FilterBanks.OctaveBands(filterCount, fftSize, samplingRate, lowFreq, highFreq, overlapCheckBox.Checked);
                break;

            case "ERB":
                bands       = null;
                _filterbank = FilterBanks.Erb(filterCount, fftSize, samplingRate, lowFreq, highFreq);

                // ====================================================
                // ===================  ! SQUARE ! ====================

                //foreach (var filter in _filterbank)
                //{
                //    for (var j = 0; j < filter.Length; j++)
                //    {
                //        var squared = filter[j] * filter[j];
                //        filter[j] = squared;
                //    }
                //}

                // normalization coefficient (for plotting)
                var scaleCoeff = (int)(1.0 / _filterbank.Max(f => f.Max()));
                filterbankPanel.Gain = 100 * scaleCoeff;


                break;

            default:
                bands = FilterBanks.HerzBands(filterCount, fftSize, samplingRate, lowFreq, highFreq, overlapCheckBox.Checked);
                break;
            }

            if (bands != null)
            {
                switch (shapeComboBox.Text)
                {
                case "Triangular":
                    _filterbank = FilterBanks.Triangular(fftSize, samplingRate, bands);
                    break;

                case "Trapezoidal":
                    _filterbank = FilterBanks.Trapezoidal(fftSize, samplingRate, bands);
                    break;

                case "BiQuad":
                    _filterbank = FilterBanks.BiQuad(fftSize, samplingRate, bands);
                    break;

                default:
                    _filterbank = FilterBanks.Rectangular(fftSize, samplingRate, bands);
                    break;
                }
            }

            band1ComboBox.DataSource = Enumerable.Range(1, filterCount).ToArray();
            band2ComboBox.DataSource = Enumerable.Range(1, filterCount).ToArray();
            band3ComboBox.DataSource = Enumerable.Range(1, filterCount).ToArray();
            band4ComboBox.DataSource = Enumerable.Range(1, filterCount).ToArray();
            band1ComboBox.Text       = "1";
            band2ComboBox.Text       = "2";
            band3ComboBox.Text       = "3";
            band4ComboBox.Text       = "4";

            filterbankPanel.Groups = _filterbank;
        }