This node performs the mel-scale filter bank processing for input spectra and outputs the energy of each filter channel. Note that there are two types of input spectra, and output differs depending on inputs.
No files are required.
When to use
This node is used as preprocessing for acquiring acoustic features. It is used just after MultiFFT , PowerCalcForMap or PreEmphasis . It is used before MFCCExtraction or MSLSExtraction .
Typical connection
Parameter name |
Type |
Default value |
Unit |
Description |
LENGTH |
512 |
[pt] |
Analysis frame length |
|
SAMPLING_RATE |
16000 |
[Hz] |
Sampling frequency |
|
CUTOFF |
8000 |
[Hz] |
Cut-off frequency of lowpass filter |
|
MIN_FREQUENCY |
63 |
[Hz] |
Lower cut-off frequency of filter bank |
|
MAX_FREQUENCY |
8000 |
[Hz] |
Upper limit frequency of filter bank |
|
FBANK_COUNT |
13 |
Filter bank numbers |
Input
: Map<int, ObjectRef> type. A pair of the sound source ID and power spectrum as Vector<float> type or complex spectrum Vector<complex<float> > type data. Note that when the power spectrum is selected, output energy doubles, different from the case that the complex spectrum is selected.
Output
: Map<int, ObjectRef> type. A pair of the sound source ID and the vector consisting of output energy of the filter bank as Vector<float> type data. The dimension number of output vectors is twice as large as FBANK_COUNT. Output energy of the filter bank is in the range from 0 to FBANK_COUNT-1 and 0 is in the range from FBANK_COUNT to 2 *FBANK_COUNT-1. The part that 0 is in is a placeholder for dynamic features. When dynamic features are not needed, it is necessary to delete with FeatureRemover .
Parameter
: int type. Analysis frame length. It is equal to the number of frequency bins of the input spectrum. Its range is positive integers.
: int type. Sampling frequency. Its range is positive integers.
: Cut-off frequency of the anti-aliasing filter in a discrete Fourier transform. It is below 1/2 of SAMPLING_RATE.
: int type. Lower cut-off frequency of the filter bank. Its range is positive integers and less than CUTOFF.
: int type. Upper limit frequency of the filter bank. Its range is positive integers and less than CUTOFF.
: int type. The number of filter banks. Its range is positive integers.
This node performs the mel-scale filter bank processing and outputs energy of each channel. Center frequency of each bank is positioned on mel-scale $^{(1)}$ at regular intervals. Center frequency for each channel is determined by performing FBANK_COUNT division from the minimum frequency bin $\hbox{SAMPLING\_ RATE}/\hbox{LENGTH}$ to $\hbox{SAMPLING\_ RATE} \hbox{CUTOFF} / \hbox{LENGTH}$. Transformation of the linear scale and mel scale is expressed as follows.
$\displaystyle m $ | $\displaystyle = $ | $\displaystyle 1127.01048 \log ( 1.0 + \frac{\lambda }{700.0} ) $ | (140) |
However, expression on the linear scale is \lambda (Hz) and that on the mel scale is $m$. Figure 6.86 shows an example of the transformation by 8000 Hz. The red points indicate the center frequency of each bank when SAMPLING_RATE is 16000Hz, CUTOFF is 8000Hz and FBANK_COUNT is 13. The figure shows that the center frequency of each bank is at regular intervals on the mel scale.
Figure 6.87 shows the window functions of the filter banks on the mel scale. It is a triangle window that becomes 1.0 on the center frequency parts and 0.0 on the center frequency parts of adjacent channels. Center frequency for each channel is at regular intervals on the mel scale and in symmetric shape. These window functions are represented as shown in Figure 6.88 on the linear scale. A wide band is covered in high frequency channels.
The input power spectrum expressed on the linear scale is weighted with the window functions shown in Figure 6.88 and energy is obtained for each channel and output.
(1) Stanley Smith Stevens, John Volkman, Edwin Newman: “A Scale for the Measurement of the Psychological Magnitude Pitch”, Journal of the Acoustical Society of America 8(3), pp.185–190, 1937.