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121 lines
3.8 KiB
121 lines
3.8 KiB
/* Test AudioLMSDenoiseNotch_F32 from OpenAudio_ArduinoLibrary
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* Just a simpe sine wave plus noise input. Select
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* Deoise or AutoNotch Filter functions by #defines below.
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* Output is either a sample of the time series or
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* the spectrum fro the FFT.
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*
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* For notes, see: AudioLMSDenoiseNotch_F32.h
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*
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* Bob Larkin 29 Jan 2022
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* Public Domain
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*/
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#include "AudioStream_F32.h"
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#include "Arduino.h"
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#include "Audio.h"
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#include "OpenAudio_ArduinoLibrary.h"
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// ***** UN-COMMENT ONE:
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#define DO_DENOISE
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//#define DO_AUTONOTCH
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// ***** UN-COMMENT ONE:
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#define OUTPUT_QUEUE
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// #define OUTPUT_FFT
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// T3.x supported sample rates: 2000, 8000, 11025, 16000, 22050, 24000, 32000, 44100, 44117, 48000,
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// 88200, 88235 (44117*2), 95680, 96000, 176400, 176470, 192000
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// T4.x supports any sample rate the codec will handle.
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const float sample_rate_Hz = 44117.0f;
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const int audio_block_samples = 128;
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AudioSettings_F32 audio_settings(sample_rate_Hz, audio_block_samples);
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#include "OpenAudio_ArduinoLibrary.h"
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#include "AudioStream_F32.h"
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#include <Audio.h>
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AudioSynthSineCosine_F32 sine1; //xy=60,219
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AudioSynthGaussian_F32 GaussianWhiteNoise1; //xy=106,263
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AudioMixer4_F32 mixer4_1; //xy=154,334
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AudioLMSDenoiseNotch_F32 LMS1; //xy=206,411
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AudioOutputI2S_F32 audioOutI2S1; //xy=301,542
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AudioAnalyzeFFT1024_F32 FFT1024_1; //xy=362,495
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AudioRecordQueue_F32 recordQueue1; //xy=378,446
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AudioConnection_F32 patchCord1(sine1, 0, mixer4_1, 0);
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AudioConnection_F32 patchCord2(GaussianWhiteNoise1, 0, mixer4_1, 1);
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AudioConnection_F32 patchCord3(mixer4_1, LMS1);
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AudioConnection_F32 patchCord4(LMS1, recordQueue1);
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AudioConnection_F32 patchCord5(LMS1, FFT1024_1);
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AudioConnection_F32 patchCord6(LMS1, 0, audioOutI2S1, 0);
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AudioConnection_F32 patchCord7(LMS1, 0, audioOutI2S1, 1);
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AudioControlSGTL5000 sgtl5000_1; //xy=97,571
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float saveDat[512];
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void setup() {
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Serial.begin(300); // Any value
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delay(1000);
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Serial.println("OpenAudio_ArduinoLibrary - Test LMS DeNoise & AutoNotch");
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// AudioMemory(5);
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AudioMemory_F32(50, audio_settings);
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sgtl5000_1.enable();
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// Change the next 3 to suit your experiment
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sine1.frequency(1292.49f);
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sine1.amplitude(0.5f);
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GaussianWhiteNoise1.amplitude(0.1f); // Standard Deviation
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Serial.print("Achieved FIR length = ");
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#ifdef DO_DENOISE
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// Change the last two parameters for array sizes. See .h file.
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Serial.println(LMS1.initializeLMS(DENOISE, 64, 4)); // <== Modify to suit
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#endif
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#ifdef DO_AUTONOTCH
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Serial.println(LMS1.initializeLMS(NOTCH, 32, 4)); // <== Modify to suit
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#endif
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LMS1.setParameters(0.05f, 0.999f); // (float _beta, float _decay);
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LMS1.enable(true);
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FFT1024_1.windowFunction(NULL); // (AudioWindowHanning1024);
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#ifdef OUTPUT_QUEUE
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recordQueue1.begin();
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#endif
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}
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void loop()
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{
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float *pq;
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int nQ;
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static uint32_t nTimes = 0;
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#ifdef OUTPUT_FFT
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if ( FFT1024_1.available() )
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{
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// When new FFT data is available
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// print it all to the Arduino Serial Monitor
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float* pin = FFT1024_1.getData();
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for (int kk=0; kk<512; kk++)
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saveDat[kk]= *(pin + kk);
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if(++nTimes>4 && nTimes<6)
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{
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Serial.println("Freq, Hz Power, dB");
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for (int i=0; i<512; i++)
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{
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Serial.print(43.083f*(float32_t)i, 2);
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Serial.print(", ");
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Serial.println(20.0f*log10f(0.0078125f*saveDat[i]), 3);
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}
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Serial.println();
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}
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}
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#endif
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#ifdef OUTPUT_QUEUE
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if( nQ = recordQueue1.available() )
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{// Serial.print("Data Available ");
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pq = recordQueue1.readBuffer();
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for(int i=0; i<128; i++)
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Serial.println(*(pq + i),7);
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recordQueue1.freeBuffer();
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}
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#endif
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}
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