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fft + bp

This commit is contained in:
Alexander Alber 2022-06-20 20:27:03 +02:00
parent 14d2d650a1
commit bb0fb29369
4 changed files with 247 additions and 2 deletions
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53
firmware/.vscode/settings.json vendored Normal file
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@ -0,0 +1,53 @@
{
"files.associations": {
"array": "cpp",
"atomic": "cpp",
"*.tcc": "cpp",
"cctype": "cpp",
"clocale": "cpp",
"cmath": "cpp",
"complex": "cpp",
"cstdarg": "cpp",
"cstddef": "cpp",
"cstdint": "cpp",
"cstdio": "cpp",
"cstdlib": "cpp",
"cstring": "cpp",
"ctime": "cpp",
"cwchar": "cpp",
"cwctype": "cpp",
"deque": "cpp",
"unordered_map": "cpp",
"unordered_set": "cpp",
"vector": "cpp",
"exception": "cpp",
"algorithm": "cpp",
"functional": "cpp",
"iterator": "cpp",
"map": "cpp",
"memory": "cpp",
"memory_resource": "cpp",
"numeric": "cpp",
"optional": "cpp",
"random": "cpp",
"string": "cpp",
"string_view": "cpp",
"system_error": "cpp",
"tuple": "cpp",
"type_traits": "cpp",
"utility": "cpp",
"fstream": "cpp",
"initializer_list": "cpp",
"iomanip": "cpp",
"iosfwd": "cpp",
"istream": "cpp",
"limits": "cpp",
"new": "cpp",
"ostream": "cpp",
"sstream": "cpp",
"stdexcept": "cpp",
"streambuf": "cpp",
"cinttypes": "cpp",
"typeinfo": "cpp"
}
}

7
firmware/include/app.h
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@ -12,6 +12,13 @@ struct BeatDetectApp : public App {
void loop();
};
struct FftDetectApp : public App {
void init();
void deinit();
void loop();
};
struct VuMeterApp: public App {
void init();
void deinit();

181
firmware/src/applications/fft_detect.cpp Normal file
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@ -0,0 +1,181 @@
#include <algorithm>
#include "app.h"
#include "biquad.h"
#include "pt1.h"
#include "zauberstab.h"
#include "fft.h"
#undef NUM_LEDS
#define NUM_LEDS 45
#define SAMPLING_FREQUENCY_BP 40 // number of energy chunks per second
#define Q 20. // quality factor of band pass filters
#define PI 3.1415926535897932384626433832795
#define N_SAMPLES 512
static const unsigned long sampling_period_bp = 1000000L / SAMPLING_FREQUENCY_BP;
static float energy = 0;
static unsigned long last_us_bp = 0L;
static unsigned long last_us_control = 0L;
static Biquad<float> bp_filter;
static Pt1<float> y_filter{1.f, 1.f};
static Pt1<float> pos_filter{1.f, 1.f};
static float yy1;
static float yy2;
static float yy3;
static float yy4;
static float yy5;
static float yy6;
static float y;
static float y_fil;
static float angle;
static float angle2;
static float pos_target = NUM_LEDS / 2;
static float pos_target_filtered = NUM_LEDS / 2;
static long initial_time;
static std::complex<float> samples[N_SAMPLES];
static std::complex<float> z[N_SAMPLES];
static uint32_t sample_counter = 0;
static unsigned long max_dt = 0;
static unsigned long last_sample = 0;
static int
get_value(int pos, float pos0)
{
if (abs(pos0 - pos) > 5)
{
return 0;
}
else
{
return (40 - abs(pos0 - pos) * 8);
}
}
static void
set_filter(float frequency)
{
float a, a0, a1, a2, b0, b1, b2, w0;
w0 = 2. * PI * frequency / SAMPLING_FREQUENCY_BP;
a = sin(w0 / (2. * Q));
b0 = a;
b1 = 0.f;
b2 = -a;
a0 = 1.f + a;
a1 = -2.f * cos(w0);
a2 = 1.f - a;
bp_filter = Biquad<float>{a0, a1, a2, b0, b1, b2};
}
void FftDetectApp::init()
{
set_filter(2.0f);
initial_time = micros();
pos_target = NUM_LEDS / 2;
pos_target_filtered = NUM_LEDS / 2;
pos_filter.reset();
bp_filter.reset();
}
void FftDetectApp::deinit()
{
}
void FftDetectApp::loop()
{
float sample = get_sample();
energy += std::abs(sample) * std::abs(sample);
if (micros() - last_us_bp > sampling_period_bp)
{
samples[sample_counter++] = energy;
last_us_bp = micros();
y = bp_filter.update(energy);
yy6 = yy5;
yy5 = yy4;
yy4 = yy3;
yy3 = yy2;
yy2 = yy1;
yy1 = y;
y_fil = y_filter.update(std::abs(y), 0.005f);
float delayed = yy5;
angle = atan2(delayed, y);
if (PI < abs(angle - angle2) && abs(angle - angle2) < 3 * PI)
{
angle2 = angle + 2 * PI;
}
else
{
angle2 = angle;
}
pos_target = map(angle2, -PI, 3 * PI, -0.3 * NUM_LEDS, NUM_LEDS * 1.5);
if (pos_target > pos_target_filtered)
{
pos_target_filtered = pos_filter.update(pos_target, 0.35f);
}
else
{
pos_filter.y_n1 = pos_target;
pos_target_filtered = pos_target;
}
energy = 0;
for (int i = 0; i < NUM_LEDS; i++)
{
leds[i].g = get_value(i, pos_target_filtered);
leds[i].r = get_value(i, pos_target_filtered + 2);
leds[i].b = get_value(i, pos_target_filtered - 2);
// leds[i].setRGB(brightness_red, brightness_green, brightness_blue);
// leds[i].setHSV(160, (rounds == 6) ? 0xFF : 0, brightness);
}
FastLED.show();
}
if (sample_counter == N_SAMPLES)
{
FFT<float>::fft(samples, z, N_SAMPLES);
float max = 0.f;
int pos = -1;
for (int i = 20; i < 30; i++)
{
float v = std::abs(z[i]);
if (v > max)
{
max = v;
pos = i;
}
}
float frequency = 40.f/512.f*pos;
set_filter(frequency);
sample_counter = 0;
}
}

8
firmware/src/main.cpp
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@ -15,14 +15,18 @@ struct FFTTestApp fft_test_app
struct FackelApp fackel_app
{
};
struct FftDetectApp fft_detect_app
{
};
std::vector<std::reference_wrapper<App>> apps = {
std::ref<App>(beat_detect_app),
std::ref<App>(vu_meter_app),
std::ref<App>(fft_test_app),
std::ref<App>(fackel_app)};
std::ref<App>(fackel_app),
std::ref<App>(fft_detect_app)};
unsigned int current_app = 3;
unsigned int current_app = 4;
unsigned int next_app;
void setup()