Realtime spectrum analyzer. Using FFT, linear prediction, or cepstrum smoothing. Version using MEMS microphone and CODEC, named "F746_RealtimeSpectrumAnalyzer_MEMS_Mic" is registered. リアルタイム スペクトル解析器.解析の手法:FFT,線形予測法,ケプストラムによる平滑化の3種類.このプログラムの説明は,CQ出版社のインターフェース誌,2016年4月号に掲載.外付けのマイクまたは他の信号源等を A0 に接続する.線形予測法,ケプストラムは,スペクトル解析の対象を音声信号に想定してパラメータを設定している.MEMS マイクと CODEC を使ったバージョンを "F746_RealtimeSpectrumAnalyzer_MEMS_Mic" として登録.
Dependencies: BSP_DISCO_F746NG BUTTON_GROUP LCD_DISCO_F746NG TS_DISCO_F746NG UIT_FFT_Real mbed
MyClasses/CepstrumAnalysis.hpp@3:7c26b701f363, 2015-12-14 (annotated)
- Committer:
- MikamiUitOpen
- Date:
- Mon Dec 14 13:44:42 2015 +0000
- Revision:
- 3:7c26b701f363
- Parent:
- 0:5c237fdcba23
- Child:
- 4:99d4d5ea06a2
4
Who changed what in which revision?
User | Revision | Line number | New contents of line |
---|---|---|---|
MikamiUitOpen | 0:5c237fdcba23 | 1 | //------------------------------------------------------- |
MikamiUitOpen | 0:5c237fdcba23 | 2 | // Class for spectrum analysis using cepstrum (Header) |
MikamiUitOpen | 0:5c237fdcba23 | 3 | // |
MikamiUitOpen | 3:7c26b701f363 | 4 | // 2015/12/14, Copyright (c) 2015 MIKAMI, Naoki |
MikamiUitOpen | 0:5c237fdcba23 | 5 | //------------------------------------------------------- |
MikamiUitOpen | 0:5c237fdcba23 | 6 | |
MikamiUitOpen | 0:5c237fdcba23 | 7 | #ifndef CEPSTRUM_ANALYZER_HPP |
MikamiUitOpen | 0:5c237fdcba23 | 8 | #define CEPSTRUM_ANALYZER_HPP |
MikamiUitOpen | 0:5c237fdcba23 | 9 | |
MikamiUitOpen | 0:5c237fdcba23 | 10 | #include "AnalysisBase.hpp" |
MikamiUitOpen | 0:5c237fdcba23 | 11 | |
MikamiUitOpen | 0:5c237fdcba23 | 12 | |
MikamiUitOpen | 0:5c237fdcba23 | 13 | namespace Mikami |
MikamiUitOpen | 0:5c237fdcba23 | 14 | { |
MikamiUitOpen | 0:5c237fdcba23 | 15 | class CepstrumAnalyzer : public AnalyzerBase |
MikamiUitOpen | 0:5c237fdcba23 | 16 | { |
MikamiUitOpen | 0:5c237fdcba23 | 17 | public: |
MikamiUitOpen | 0:5c237fdcba23 | 18 | CepstrumAnalyzer(int nData, int nFft, int nLifter); |
MikamiUitOpen | 0:5c237fdcba23 | 19 | virtual ~CepstrumAnalyzer(); |
MikamiUitOpen | 0:5c237fdcba23 | 20 | |
MikamiUitOpen | 0:5c237fdcba23 | 21 | private: |
MikamiUitOpen | 0:5c237fdcba23 | 22 | const int N_LIFTER_; |
MikamiUitOpen | 0:5c237fdcba23 | 23 | |
MikamiUitOpen | 0:5c237fdcba23 | 24 | float* xFft_; // input for FFT |
MikamiUitOpen | 0:5c237fdcba23 | 25 | Complex* yFft_; // output of FFT |
MikamiUitOpen | 0:5c237fdcba23 | 26 | float* lifter_; // lifter |
MikamiUitOpen | 3:7c26b701f363 | 27 | Complex* db_; // real part: log spectrun |
MikamiUitOpen | 0:5c237fdcba23 | 28 | float* cep_; // cepstrum |
MikamiUitOpen | 0:5c237fdcba23 | 29 | float* cepLft_; // liftered cepstrum |
MikamiUitOpen | 0:5c237fdcba23 | 30 | Complex* cepFt_; // smoothed spectrum |
MikamiUitOpen | 0:5c237fdcba23 | 31 | |
MikamiUitOpen | 0:5c237fdcba23 | 32 | virtual void Analyze(const float xn[], float yn[]); |
MikamiUitOpen | 0:5c237fdcba23 | 33 | }; |
MikamiUitOpen | 0:5c237fdcba23 | 34 | } |
MikamiUitOpen | 0:5c237fdcba23 | 35 | #endif // CEPSTRUM_ANALYZER_HPP |