/*
* This file is free software: you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by the
* Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This file is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
* See the GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program. If not, see .
*
* Code by Andy Piper
*/
/*
interface to DSP device
*/
#pragma once
#include
#include "AP_HAL_Namespace.h"
#include
#define DSP_MEM_REGION AP_HAL::Util::MEM_FAST
// Maximum tolerated number of cycles with missing signal
#define FFT_MAX_MISSED_UPDATES 5
class AP_HAL::DSP {
#if HAL_WITH_DSP
public:
enum FrequencyPeak : uint8_t {
CENTER = 0,
LOWER_SHOULDER = 1,
UPPER_SHOULDER = 2,
MAX_TRACKED_PEAKS = 3,
NONE = 4
};
struct FrequencyPeakData {
// estimate of FFT peak frequency
float _freq_hz;
// FFT bin with maximum energy
uint16_t _bin;
// width of the peak
float _noise_width_hz;
};
class FFTWindowState {
public:
// frequency width of a FFT bin
const float _bin_resolution;
// number of FFT bins
const uint16_t _bin_count;
// size of the FFT window
const uint16_t _window_size;
// FFT data
float* _freq_bins;
// derivative real data scratch space
float* _derivative_freq_bins;
// intermediate real FFT data
float* _rfft_data;
// three highest peaks
FrequencyPeakData _peak_data[MAX_TRACKED_PEAKS];
// Hanning window for incoming samples, see https://en.wikipedia.org/wiki/Window_function#Hann_.28Hanning.29_window
float* _hanning_window;
// Use in calculating the PS of the signal [Heinz] equations (20) & (21)
float _window_scale;
virtual ~FFTWindowState();
FFTWindowState(uint16_t window_size, uint16_t sample_rate);
};
// initialise an FFT instance
virtual FFTWindowState* fft_init(uint16_t window_size, uint16_t sample_rate) = 0;
// start an FFT analysis with an ObjectBuffer
virtual void fft_start(FFTWindowState* state, FloatBuffer& samples, uint16_t advance) = 0;
// perform remaining steps of an FFT analysis
virtual uint16_t fft_analyse(FFTWindowState* state, uint16_t start_bin, uint16_t end_bin, float noise_att_cutoff) = 0;
protected:
// step 3: find the magnitudes of the complex data
void step_cmplx_mag(FFTWindowState* fft, uint16_t start_bin, uint16_t end_bin, float noise_att_cutoff);
// calculate the noise width of a peak based on the input parameters
float find_noise_width(FFTWindowState* fft, uint16_t start_bin, uint16_t end_bin, uint16_t max_energy_bin, float cutoff, uint16_t& peak_top, uint16_t& peak_bottom) const;
// step 4: find the bin with the highest energy and interpolate the required frequency
uint16_t step_calc_frequencies(FFTWindowState* fft, uint16_t start_bin, uint16_t end_bin);
// calculate a single frequency
uint16_t calc_frequency(FFTWindowState* fft, uint16_t start_bin, uint16_t peak_bin, uint16_t end_bin);
// find the maximum value in an vector of floats
virtual void vector_max_float(const float* vin, uint16_t len, float* max_value, uint16_t* max_index) const = 0;
// find the mean value in an vector of floats
virtual float vector_mean_float(const float* vin, uint16_t len) const = 0;
// multiple an vector of floats by a scale factor
virtual void vector_scale_float(const float* vin, float scale, float* vout, uint16_t len) const = 0;
// algorithm for finding peaks in noisy data as per https://terpconnect.umd.edu/~toh/spectrum/PeakFindingandMeasurement.htm
uint16_t find_peaks(const float* input, uint16_t length, float* output, uint16_t* peaks, uint16_t peaklen,
float slopeThreshold, float ampThreshold, uint16_t smoothwidth, uint16_t peakgroup) const;
uint16_t val2index(const float* vector, uint16_t n, float val) const;
void derivative(const float* input, float* output, uint16_t n) const;
void fastsmooth(float* input, uint16_t n, uint16_t smoothwidth) const;
// quinn's frequency interpolator
float calculate_quinns_second_estimator(const FFTWindowState* fft, const float* complex_fft, uint16_t k) const;
float tau(const float x) const;
#endif // HAL_WITH_DSP
};