GY-63_MS5611/libraries/Kurtosis/Kurtosis.h

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#pragma once
//
// FILE: Kurtosis.h
// AUTHOR: Rob Tillaart
// DATE: 2024-05-21
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// VERSION: 0.1.2
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// PURPOSE: Arduino library for calculating skewness and kurtosis of a dataset.
// URL: https://github.com/RobTillaart/Kurtosis
//
// code based upon https://www.johndcook.com/blog/skewness_kurtosis/
// documentation https://en.wikipedia.org/wiki/Kurtosis
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//
// Experimental
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#define KURTOSIS_LIB_VERSION "0.1.2"
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class Kurtosis
{
public:
Kurtosis()
{
reset();
};
void reset()
{
_count = 0;
M1 = M2 = M3 = M4 = 0.0;
};
void add(double x)
{
uint32_t n1 = _count;
_count++;
// determine distance to the mean (so far) M1.
double delta = x - M1;
// calculate the weighted addition for M1 to the mean.
double delta_n1 = delta / _count;
// TODO calculate the square of the weighted addition (?)
double delta_n2 = delta_n1 * delta_n1;
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// TODO
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double term1 = delta * delta_n1 * n1;
// optimized: remove 3 float operations. ~10% gain.
M1 += delta_n1;
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// optimized: F3M2 ~1%
double F3M2 = 3 * M2;
M4 += delta_n2 * (term1 * (_count * (_count - 3) + 3) + F3M2 * 2) - 4 * delta_n1 * M3;
M3 += delta_n1 * (term1 * (_count - 2) - F3M2);
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M2 += term1;
};
uint32_t count()
{
return _count;
};
double mean()
{
return M1;
};
double variance()
{
// cache the variance as it is used for stddev too.
static uint32_t lc = 0;
if (_count > lc)
{
lc = _count;
_variance = M2 / (_count - 1.0);
}
return _variance;
};
double stddev()
{
return sqrt( variance() );
};
double skewness()
{
// optimized: replaced a DIV by a MUL
return sqrt(double(_count)) * M3 * pow(M2, -1.5);
};
double kurtosis()
{
return double(_count) * M4 / (M2 * M2) - 3.0;
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};
//////////////////////////////////////////////////////////////
//
// ADDING DISTRIBUTIONS
//
// Optimization applied to original code.
// - divisions replaced by multiplication
// - prevent "overflow in divider" without using uint64_t.
// - slightly faster when no hardware float support.
// - ab = a.count * b.count; is used 5 times.
// - more are possible, e.g. aa, bb.
friend Kurtosis operator + (Kurtosis a, Kurtosis b)
{
Kurtosis combined;
combined._count = a._count + b._count;
double delta = b.M1 - a.M1;
double delta2 = delta * delta;
double delta3 = delta * delta2;
double delta4 = delta2 * delta2;
double invcnt = 1.0 / combined._count;
double ab = a._count * b._count;
combined.M1 = (a._count * a.M1 + b._count * b.M1) * invcnt;
combined.M2 = a.M2 + b.M2 + delta2 * ab * invcnt;
combined.M3 = a.M3 + b.M3 + delta3 * ab * (a._count - b._count) * invcnt * invcnt;
combined.M3 += 3.0 * delta * (a._count * b.M2 - b._count * a.M2) * invcnt;
combined.M4 = a.M4 + b.M4 + delta4 * ab * (a._count * a._count - ab + b._count * b._count)
* invcnt * invcnt * invcnt;
combined.M4 += 6.0 * delta2 * (a._count * a._count * b.M2 + b._count * b._count * a.M2) * invcnt * invcnt +
4.0 * delta * (a._count * b.M3 - b._count * a.M3) * invcnt;
return combined;
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}
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Kurtosis& operator += (const Kurtosis& rhs)
{
Kurtosis combined = *this + rhs;
*this = combined;
return *this;
}
//////////////////////////////////////////////////////////////
//
// DEBUG
//
void dump()
{
Serial.println(_count);
Serial.println(M1);
Serial.println(M2);
Serial.println(M3);
Serial.println(M4);
}
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private:
uint32_t _count;
double M1, M2, M3, M4;
double _variance = 0.0;
};
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// -- END OF FILE --