tuning
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Alexander Alber
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0d4eb26ca3
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a19f1a0efc
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@ -11,7 +11,7 @@
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#define SAMPLING_FREQUENCY_CONTROL 1 // check number of times per second if the current band pass is the best one
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#define Q 20. // quality factor of band pass filters
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#define PI 3.1415926535897932384626433832795
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#define n_BP 20 //number of band pass filters
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#define n_BP 30 //number of band pass filters
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CRGB leds[NUM_LEDS];
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@ -53,7 +53,7 @@ double energy_fil = 800.;
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float pos_target = NUM_LEDS/2;
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float pos_target_filtered = NUM_LEDS/2;
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int microphone_offset;
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float microphone_offset = 512;
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long initial_time;
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int active = 15;
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@ -65,42 +65,42 @@ int rounds = 0;
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void setup() {
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//Serial.begin(115200);
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Serial.begin(115200);
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FastLED.addLeds<WS2812, LED_PIN, RGB>(leds, NUM_LEDS);
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FastLED.setMaxPowerInVoltsAndMilliamps(5, 350);
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FastLED.setMaxPowerInVoltsAndMilliamps(5, 300);
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// for(int i = 0; i < NUM_LEDS; i++)
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// { int brightness = get_value(i, pos_target_filtered);
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// leds[i].setRGB(brightness, brightness, brightness); }
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// FastLED.show();
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//
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// long sumsamples = 0;
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// for(int j = 1; j<1000; j++)
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// {
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// int sample = analogRead(1);
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// sumsamples += sample;
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// delay(1);
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// if(j==500)
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// {
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// sumsamples = 0;
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// }
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// }
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// microphone_offset = sumsamples/500;
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for(int i = 0; i < NUM_LEDS; i++)
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{ int brightness = get_value(i, pos_target_filtered);
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leds[i].setRGB(brightness, brightness, brightness); }
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FastLED.show();
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long sumsamples = 0;
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for(int j = 1; j<1000; j++)
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{
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int sample = analogRead(1);
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sumsamples += sample;
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delay(1);
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if(j==500)
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{
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sumsamples = 0;
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}
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}
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microphone_offset = sumsamples/500;
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set_filter();
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initial_time = micros();
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}
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void set_filter() {
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for(int i = 0; i < n_BP; i++)
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{
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float frequency = 1.75+i*0.033;
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float frequency = 1.75+i*(2.4-1.75)/n_BP;
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w0[i] = 2.*PI*frequency/SAMPLING_FREQUENCY_BP;
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a[i] = sin(w0[i]/(2.*Q));
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b0[i] = a[i];
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//b1[i] = 0;
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b2[i] = -a[i];
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@ -111,24 +111,24 @@ void set_filter() {
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}
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int get_value(int pos, float pos0) {
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if (abs(pos0-pos) > 7)
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{ return 0; }
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else
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{ return (255-abs(pos0-pos)*35); }
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if (abs(pos0-pos) > 20) { return 0; }
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else { return (40-abs(pos0-pos)*2); }
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}
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void loop() {
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int sample = int(analogRead(1) - microphone_offset);
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int sample = int(analogRead(1) - microphone_offset);
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energy += abs(sample)*abs(sample);
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if (micros() - last_us_bp > sampling_period_bp)
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{
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Serial.println(sample);
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microphone_offset += (analogRead(1)-microphone_offset)*0.001;
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//Serial.println(microphone_offset);
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last_us_bp += sampling_period_bp;
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energy_fil += (energy - energy_fil) * 0.01;
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//Serial.println(energy);
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@ -143,12 +143,10 @@ void loop() {
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yy3[i] = yy2[i];
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yy2[i] = yy1[i];
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yy1[i] = y[i];
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y_fil[i] += (abs(y[i]) - y_fil[i]) * 0.005; //linie der scheitelpunkte
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}
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float delays = constrain( SAMPLING_FREQUENCY_BP * 0.25/(1.75+active*0.033) , 4., 6.);
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float delays = constrain( SAMPLING_FREQUENCY_BP * 0.25/(1.75+active*(2.4-1.75)/n_BP) , 4., 6.);
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float delayed = 0;
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if (delays > 5)
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@ -163,20 +161,29 @@ void loop() {
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else
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{ angle2 = angle; }
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pos_target = map(angle2, -PI, 3*PI, -0.1*NUM_LEDS, NUM_LEDS*1.1);
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pos_target = map(angle2, -PI, 3*PI, -0.3*NUM_LEDS, NUM_LEDS*1.5);
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if (pos_target > pos_target_filtered)
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{ pos_target_filtered += (pos_target - pos_target_filtered)*0.5; }
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{ pos_target_filtered += (pos_target - pos_target_filtered)*0.35; }
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else
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{ pos_target_filtered = pos_target; }
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// Serial.print(y_fil[active]);
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// Serial.print(",");
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// Serial.println(y[active]);
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energy = 0;
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for(int i = 0; i < NUM_LEDS; i++)
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{ int brightness = get_value(i, pos_target_filtered);
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leds[i].setRGB(brightness, brightness, brightness); }
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{
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int brightness = get_value(i, pos_target_filtered);
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//leds[i].setRGB(brightness, brightness, brightness);
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leds[i].setHSV( 160, (rounds == 6) ? 60 : 0, brightness);
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}
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FastLED.show();
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}
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@ -205,7 +212,7 @@ void loop() {
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rounds = 0;
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candidate = argmax;
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}
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if(rounds > 5)
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if(rounds > 6)
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{
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rounds = 0;
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active = candidate;
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