ardupilot/libraries/AP_Baro/AP_Baro_HIL.cpp

73 lines
2.8 KiB
C++

#include "AP_Baro.h"
#include <AP_HAL/AP_HAL.h>
extern const AP_HAL::HAL& hal;
// ==========================================================================
// based on tables.cpp from http://www.pdas.com/atmosdownload.html
/*
Compute the temperature, density, and pressure in the standard atmosphere
Correct to 20 km. Only approximate thereafter.
*/
void AP_Baro::SimpleAtmosphere(
const float alt, // geometric altitude, km.
float& sigma, // density/sea-level standard density
float& delta, // pressure/sea-level standard pressure
float& theta) // temperature/sea-level standard temperature
{
const float REARTH = 6369.0f; // radius of the Earth (km)
const float GMR = 34.163195f; // gas constant
float h=alt*REARTH/(alt+REARTH); // geometric to geopotential altitude
if (h < 11.0f) {
// Troposphere
theta = (SSL_AIR_TEMPERATURE - 6.5f * h) / SSL_AIR_TEMPERATURE;
delta = powf(theta, GMR / 6.5f);
} else {
// Stratosphere
theta = 216.65f / SSL_AIR_TEMPERATURE;
delta = 0.2233611f * expf(-GMR * (h - 11.0f) / 216.65f);
}
sigma = delta/theta;
}
void AP_Baro::SimpleUnderWaterAtmosphere(
float alt, // depth, km.
float& rho, // density/sea-level
float& delta, // pressure/sea-level standard pressure
float& theta) // temperature/sea-level standard temperature
{
// Values and equations based on:
// https://en.wikipedia.org/wiki/Standard_sea_level
const float seaDensity = 1.024f; // g/cm3
const float maxSeaDensity = 1.028f; // g/cm3
const float pAC = maxSeaDensity - seaDensity; // pycnocline angular coefficient
// From: https://www.windows2universe.org/earth/Water/density.html
rho = seaDensity;
if (alt < 1.0f) {
// inside pycnocline
rho += pAC*alt;
} else {
rho += pAC;
}
rho = rho/seaDensity;
// From: https://www.grc.nasa.gov/www/k-12/WindTunnel/Activities/fluid_pressure.html
// \f$P = \rho (kg) \cdot gravity (m/s2) \cdot depth (m)\f$
// \f$P_{atmosphere} = 101.325 kPa\f$
// \f$P_{total} = P_{atmosphere} + P_{fluid}\f$
delta = (SSL_AIR_PRESSURE + (seaDensity * 1e3) * GRAVITY_MSS * (alt * 1e3)) / SSL_AIR_PRESSURE;
// From: http://residualanalysis.blogspot.com.br/2010/02/temperature-of-ocean-water-at-given.html
// \f$T(D)\f$ Temperature underwater at given temperature
// \f$S\f$ Surface temperature at the surface
// \f$T(D)\approx\frac{S}{1.8 \cdot 10^{-4} \cdot S \cdot T + 1}\f$
const float seaTempSurface = KELVIN_TO_C(SSL_AIR_TEMPERATURE); // Celsius
const float S = seaTempSurface * 0.338f;
theta = 1.0f / ((1.8e-4f) * S * (alt * 1e3f) + 1.0f);
}