我正在尝试使用TarsosDSP库从。wav文件中检测音高,结果频率总是小于一半。
这是我的代码。
public class Main {
public static void main(String[] args){
try{
float sampleRate = 44100;
int audioBufferSize = 2048;
int bufferOverlap = 0;
//Create an AudioInputStream from my .wav file
URL soundURL = Main.class.getResource("/DetectPicthFromWav/329.wav");
AudioInputStream stream = AudioSystem.getAudioInputStream(soundURL);
//Convert into TarsosDSP API
JVMAudioInputStream audioStream = new JVMAudioInputStream(stream);
AudioDispatcher dispatcher = new AudioDispatcher(audioStream, audioBufferSize, bufferOverlap);
MyPitchDetector myPitchDetector = new MyPitchDetector();
dispatcher.addAudioProcessor(new PitchProcessor(PitchEstimationAlgorithm.YIN, sampleRate, audioBufferSize, myPitchDetector));
dispatcher.run();
}
catch(FileNotFoundException fne){fne.printStackTrace();}
catch(UnsupportedAudioFileException uafe){uafe.printStackTrace();}
catch(IOException ie){ie.printStackTrace();}
}
}
class MyPitchDetector implements PitchDetectionHandler{
//Here the result of pitch is always less than half.
@Override
public void handlePitch(PitchDetectionResult pitchDetectionResult,
AudioEvent audioEvent) {
if(pitchDetectionResult.getPitch() != -1){
double timeStamp = audioEvent.getTimeStamp();
float pitch = pitchDetectionResult.getPitch();
float probability = pitchDetectionResult.getProbability();
double rms = audioEvent.getRMS() * 100;
String message = String.format("Pitch detected at %.2fs: %.2fHz ( %.2f probability, RMS: %.5f )n", timeStamp,pitch,probability,rms);
System.out.println(message);
}
}
}
329.wav文件是从http://onlinetonegenerator.com/网站以329Hz生成的。我不知道为什么结果音调总是164.5Hz。我的代码有问题吗?
嗯,我不知道你在使用什么方法,但是通过观察频率是如何减半的,这可能是一个错误的采样率设置的问题?
当信号被采样时,大多数操作都假设一个初始采样率,也许你已经将它作为参数传递(或其默认值是)一半?
我在Android上使用TarsosDSP时也遇到了同样的问题。对我来说,答案是来自http://onlinetonegenerator.com/的文件有32位的样本,而不是16位的,这似乎是默认的。相关代码:
AssetFileDescriptor afd = getAssets().openFd("440.wav"); // 440Hz sine wave
InputStream is = afd.createInputStream();
TarsosDSPAudioFormat audioFormat = new TarsosDSPAudioFormat(
/* sample rate */ 44100,
/* HERE sample size in bits */ 32,
/* number of channels */ 1,
/* signed/unsigned data */ true,
/* big-endian byte order */ false
);
AudioDispatcher dispatcher = new AudioDispatcher(new UniversalAudioInputStream(is, audioFormat), 2048, 0);
PitchDetectionHandler pdh = ...
AudioProcessor p = new PitchProcessor(PitchProcessor.PitchEstimationAlgorithm.FFT_YIN, 44100, 2048, pdh);
dispatcher.addAudioProcessor(p);
new Thread(dispatcher, "Audio Dispatcher").start();