不韋 呂
Realtime sound spectrogram using FFT or linear prediction. Spectrogram is displayed on the display of PC. リアルタイム・スペクトログラム.解析の手法:FFT,線形予測法.スペクトログラムは PC のディスプレー装置に表示される.PC 側のプログラム:F446_Spectrogram.
Dependencies: Array_Matrix mbed SerialTxRxIntr F446_AD_DA UIT_FFT_Real
MySpectrogram/AnalyzerBase.hpp
- Committer:
- MikamiUitOpen
- Date:
- 2018-11-04
- Revision:
- 6:c38ec7939609
- Parent:
- 0:a539141b9dec
File content as of revision 6:c38ec7939609:
//-------------------------------------------------------
// Base abstract class for spectrum analysis (Header)
//
// 2018/11/04, Copyright (c) 2018 MIKAMI, Naoki
//-------------------------------------------------------
#ifndef BASE_ANALYZER_HPP
#define BASE_ANALYZER_HPP
#include "Array.hpp"
#include "fftReal.hpp"
#include "Hamming.hpp"
namespace Mikami
{
class AnalyzerBase
{
public:
// nData: Number of data to be analyzed
// nFft: Number of FFT points
// nUse: FFT, cepstrum: window width + zero padding
// Linear prediction: window width
AnalyzerBase(int nData, int nFft, int nUse);
virtual ~AnalyzerBase() {}
void Execute(const float xn[], float db[]);
// 高域強調の程度を決める定数の設定(b1 = 1 で差分,b1 = 0 で高域強調なし)
void SetHighEmphasizer(float b1) { b1_ = b1; }
protected:
const int N_DATA_;
const int N_FFT_;
FftReal fft_;
float Norm(Complex x)
{ return x.real()*x.real() + x.imag()*x.imag(); }
private:
HammingWindow wHm_;
float b1_;
Array<float> xData_; // data to be analyzed
Array<float> wData_; // windowd data
virtual void Analyze(const float wData[], float db[]) = 0;
// disallow copy constructor and assignment operator
AnalyzerBase(const AnalyzerBase& );
AnalyzerBase& operator=(const AnalyzerBase& );
};
}
#endif // BASE_ANALYZER_HPP