Module: FGAtmosphere.cpp
Author: Jon Berndt
- Implementation of 1959 Standard Atmosphere added by Tony Peden
+ Implementation of 1959 Standard Atmosphere added by Tony Peden
Date started: 11/24/98
Purpose: Models the atmosphere
Called by: FGSimExec
--------------------------------------------------------------------------------
11/24/98 JSB Created
07/23/99 TP Added implementation of 1959 Standard Atmosphere
- Moved calculation of Mach number to FGTranslation
+ Moved calculation of Mach number to FGPropagate
Later updated to '76 model
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
COMMENTS, REFERENCES, and NOTES
#include "FGAtmosphere.h"
#include "FGState.h"
#include "FGFDMExec.h"
-#include "FGFCS.h"
#include "FGAircraft.h"
-#include "FGTranslation.h"
-#include "FGRotation.h"
-#include "FGPosition.h"
-#include "FGAuxiliary.h"
-#include "FGOutput.h"
-#include "FGMatrix33.h"
-#include "FGColumnVector3.h"
-#include "FGColumnVector4.h"
+#include "FGPropagate.h"
+#include "FGInertial.h"
#include "FGPropertyManager.h"
namespace JSBSim {
// turbType = ttBerndt;
TurbGain = 0.0;
TurbRate = 1.0;
-
+
bind();
Debug(0);
}
temperature=&intTemperature;
pressure=&intPressure;
density=&intDensity;
-
+
useExternal=false;
-
+
return true;
}
if (!FGModel::Run()) { // if false then execute this Run()
//do temp, pressure, and density first
if (!useExternal) {
- h = Position->Geth();
+ h = Propagate->Geth();
Calculate(h);
- }
+ }
if (turbType != ttNone) {
Turbulence();
soundspeed = sqrt(SHRatio*Reng*(*temperature));
- State->Seta(soundspeed);
-
Debug(2);
- return false;
+ return false;
} else { // skip Run() execution this time
- return true;
+ return true;
}
}
i = lastIndex;
if (altitude < htab[lastIndex]) {
- if (altitude <= 0) {
+ if (altitude <= 0) {
i = 0;
altitude=0;
} else {
i = lastIndex-1;
while (htab[i] > altitude) i--;
- }
+ }
} else if (altitude > htab[lastIndex+1]) {
if (altitude >= htab[7]) {
i = 7;
} else {
i = lastIndex+1;
while (htab[i+1] < altitude) i++;
- }
- }
+ }
+ }
switch(i) {
case 1: // 36089 ft.
refpress = 2116.22; // psf
//refdens = 0.00237767; // slugs/cubic ft.
break;
-
+
}
-
+
if (slope == 0) {
intTemperature = reftemp;
intPressure = refpress*exp(-Inertial->SLgravity()/(reftemp*Reng)*(altitude-htab[i]));
}
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+// Return the pressure at an arbitrary altitude and then restore the internal state
+
+double FGAtmosphere::GetPressure(double alt) {
+ Calculate(alt);
+ double p = *pressure;
+ // Reset the internal atmospheric state
+ Run();
+ return(p);
+}
+//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
// square a value, but preserve the original sign
-static inline double
-square_signed (double value)
+
+static inline double square_signed (double value)
{
if (value < 0)
return value * value * -1;
return value * value;
}
+//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+
void FGAtmosphere::Turbulence(void)
{
switch (turbType) {
vDirection += vDirectionAccel*rate*State->Getdt();
vDirection.Normalize();
-
+
// Diminish turbulence within three wingspans
// of the ground
vTurbulence = TurbGain * Magnitude * vDirection;
- double HOverBMAC = Position->GetHOverBMAC();
+ double HOverBMAC = Auxiliary->GetHOverBMAC();
if (HOverBMAC < 3.0)
vTurbulence *= (HOverBMAC / 3.0) * (HOverBMAC / 3.0);
vTurbulenceGrad = TurbGain*MagnitudeAccel * vDirection;
- vBodyTurbGrad = State->GetTl2b()*vTurbulenceGrad;
- vTurbPQR(eP) = vBodyTurbGrad(eY)/Aircraft->GetWingSpan();
+ vBodyTurbGrad = Propagate->GetTl2b()*vTurbulenceGrad;
+
+ if (Aircraft->GetWingSpan() > 0) {
+ vTurbPQR(eP) = vBodyTurbGrad(eY)/Aircraft->GetWingSpan();
+ } else {
+ vTurbPQR(eP) = vBodyTurbGrad(eY)/30.0;
+ }
// if (Aircraft->GetHTailArm() != 0.0)
// vTurbPQR(eQ) = vBodyTurbGrad(eZ)/Aircraft->GetHTailArm();
// else
// vTurbPQR(eQ) = vBodyTurbGrad(eZ)/10.0;
- if (Aircraft->GetVTailArm())
+ if (Aircraft->GetVTailArm() > 0)
vTurbPQR(eR) = vBodyTurbGrad(eX)/Aircraft->GetVTailArm();
else
vTurbPQR(eR) = vBodyTurbGrad(eX)/10.0;
vDirectiondAccelDt(eY) = 1 - 2.0*(double(rand())/double(RAND_MAX));
vDirectiondAccelDt(eZ) = 1 - 2.0*(double(rand())/double(RAND_MAX));
-
+
MagnitudedAccelDt = 1 - 2.0*(double(rand())/double(RAND_MAX)) - Magnitude;
MagnitudeAccel += MagnitudedAccelDt*rate*State->Getdt();
Magnitude += MagnitudeAccel*rate*State->Getdt();
// Diminish z-vector within two wingspans
// of the ground
- double HOverBMAC = Position->GetHOverBMAC();
+ double HOverBMAC = Auxiliary->GetHOverBMAC();
if (HOverBMAC < 2.0)
vDirection(eZ) *= HOverBMAC / 2.0;
vDirection.Normalize();
-
+
vTurbulence = TurbGain*Magnitude * vDirection;
vTurbulenceGrad = TurbGain*MagnitudeAccel * vDirection;
- vBodyTurbGrad = State->GetTl2b()*vTurbulenceGrad;
+ vBodyTurbGrad = Propagate->GetTl2b()*vTurbulenceGrad;
vTurbPQR(eP) = vBodyTurbGrad(eY)/Aircraft->GetWingSpan();
- if (Aircraft->GetHTailArm() != 0.0)
+ if (Aircraft->GetHTailArm() > 0)
vTurbPQR(eQ) = vBodyTurbGrad(eZ)/Aircraft->GetHTailArm();
else
vTurbPQR(eQ) = vBodyTurbGrad(eZ)/10.0;
- if (Aircraft->GetVTailArm())
+ if (Aircraft->GetVTailArm() > 0)
vTurbPQR(eR) = vBodyTurbGrad(eX)/Aircraft->GetVTailArm();
else
vTurbPQR(eR) = vBodyTurbGrad(eX)/10.0;
density=&intDensity;
useExternal=false;
}
-
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
&FGAtmosphere::GetTemperature);
PropertyManager->Tie("atmosphere/rho-slugs_ft3", this,
&FGAtmosphere::GetDensity);
- PropertyManager->Tie("atmosphere/P-psf", this,
- &FGAtmosphere::GetPressure);
+// PropertyManager->Tie("atmosphere/P-psf", this,
+// &FGAtmosphere::GetPressure);
PropertyManager->Tie("atmosphere/a-fps", this,
&FGAtmosphere::GetSoundSpeed);
PropertyManager->Tie("atmosphere/T-sl-R", this,
{
PropertyManager->Untie("atmosphere/T-R");
PropertyManager->Untie("atmosphere/rho-slugs_ft3");
- PropertyManager->Untie("atmosphere/P-psf");
+// PropertyManager->Untie("atmosphere/P-psf");
PropertyManager->Untie("atmosphere/a-fps");
PropertyManager->Untie("atmosphere/T-sl-R");
PropertyManager->Untie("atmosphere/rho-sl-slugs_ft3");