/*
* @(#)StrongestFrequencyViaZeroCrossings.java 1.0 April 7, 2005.
*
* McGill Univarsity
*/
package org.vocvark.AudioFeatures;
import org.vocvark.DataTypes.FeatureDefinition;
/**
* A feature extractor that finds the strongest frequency in Hz in a signal
* by looking at the zero crossings.
* <p/>
* <p>This is found by mapping the fraction in the zero-crossings to a
* frequency in Hz.
* <p/>
* <p>No extracted feature values are stored in objects of this class.
*
* @author Cory McKay
*/
public class StrongestFrequencyViaZeroCrossings
extends FeatureExtractorBaseImpl {
/* CONSTRUCTOR **************************************************************/
/**
* Basic constructor that sets the definition and dependencies (and their
* offsets) of this feature.
*/
public StrongestFrequencyViaZeroCrossings() {
String name = "Strongest Frequency Via Zero Crossings";
String description = "The strongest frequency component of a signal, in Hz, " +
"found via the number of zero-crossings.";
boolean is_sequential = true;
int dimensions = 1;
definition = new FeatureDefinition(name,
description,
is_sequential,
dimensions);
dependencies = new String[1];
dependencies[0] = "Zero Crossings";
offsets = new int[1];
offsets[0] = 0;
}
/* PUBLIC METHODS **********************************************************/
/**
* Extracts this feature from the given samples at the given sampling
* rate and given the other feature values.
* <p/>
* <p>In the case of this feature, the sampling_rate parameter is ignored.
*
* @param samples The samples to extract the feature from.
* @param sampling_rate The sampling rate that the samples are
* encoded with.
* @param other_feature_values The values of other features that are
* needed to calculate this value. The
* order and offsets of these features
* must be the same as those returned by
* this class's getDependencies and
* getDependencyOffsets methods respectively.
* The first indice indicates the feature/window
* and the second indicates the value.
* @throws Exception Throws an informative exception if
* the feature cannot be calculated.
* @return The extracted feature value(s).
*/
public double[] extractFeature(double[] samples,
double sampling_rate,
double[][] other_feature_values)
throws Exception {
double zero_crossings = other_feature_values[0][0];
double[] result = new double[1];
result[0] = (zero_crossings / 2.0) * (sampling_rate / (double) samples.length);
return result;
}
/**
* Create an identical copy of this feature. This permits FeatureExtractor
* to use the prototype pattern to create new composite features using
* metafeatures.
*/
public Object clone() {
return new StrongestFrequencyViaZeroCrossings();
}
}