#endif
#include <plib/sg.h>
+#include <simgear/sg_inlines.h>
#include "mag_compass.hxx"
#include <Main/fg_props.hxx>
fgGetNode("/orientation/side-slip-deg", true);
_dip_node =
fgGetNode("/environment/magnetic-dip-deg", true);
- _north_accel_node =
- fgGetNode("/accelerations/ned/north-accel-fps_sec", true);
- _east_accel_node =
- fgGetNode("/accelerations/ned/east-accel-fps_sec", true);
- _down_accel_node =
- fgGetNode("/accelerations/ned/down-accel-fps_sec", true);
+ _x_accel_node =
+ fgGetNode("/accelerations/pilot/x-accel-fps_sec", true);
+ _y_accel_node =
+ fgGetNode("/accelerations/pilot/y-accel-fps_sec", true);
+ _z_accel_node =
+ fgGetNode("/accelerations/pilot/z-accel-fps_sec", true);
_out_node = node->getChild("indicated-heading-deg", 0, true);
-
- _serviceable_node->setBoolValue(true);
}
void
MagCompass::update (double delta_time_sec)
{
- // don't update if it's broken
+ // This is the real magnetic
+ // which would be displayed
+ // if the compass had no errors.
+ //double heading_mag_deg = _heading_node->getDoubleValue();
+
+
+ // don't update if the compass
+ // is broken
if (!_serviceable_node->getBoolValue())
return;
+ // jam on excessive sideslip
+ if (fabs(_beta_node->getDoubleValue()) > 12.0) {
+ _rate_degps = 0.0;
+ return;
+ }
+
+
/*
Formula for northernly turning error from
http://williams.best.vwh.net/compass/node4.html:
Hc = atan2(sin(Hm)cos(theta)-tan(mu)sin(theta), cos(Hm))
- This function changes the variable names to the more common
- psi for the heading, theta for the pitch, and phi for the
- roll. It also modifies the equation to incorporate pitch
- as well as roll, as suggested by Chris Metzler.
+ This function changes the variable names to the more common psi
+ for the heading, theta for the pitch, and phi for the roll (and
+ target_deg for Hc). It also modifies the equation to
+ incorporate pitch as well as roll, as suggested by Chris
+ Metzler.
*/
// bank angle (radians)
double mu = _dip_node->getDoubleValue() * SGD_DEGREES_TO_RADIANS;
+ /*
+ Tilt adjustments for accelerations.
+
+ The magnitudes of these are totally made up, but in real life,
+ they would depend on the fluid level, the amount of friction,
+ etc. anyway. Basically, the compass float tilts forward for
+ acceleration and backward for deceleration. Tilt about 4
+ degrees (0.07 radians) for every G (32 fps/sec) of
+ acceleration.
+
+ TODO: do something with the vertical acceleration.
+ */
+ double x_accel_g = _x_accel_node->getDoubleValue() / 32;
+ double y_accel_g = _y_accel_node->getDoubleValue() / 32;
+ //double z_accel_g = _z_accel_node->getDoubleValue() / 32;
+
+ theta -= 0.07 * x_accel_g;
+ phi -= 0.07 * y_accel_g;
+
////////////////////////////////////////////////////////////////////
- // calculate target compass heading Hc in degrees
+ // calculate target compass heading degrees
////////////////////////////////////////////////////////////////////
// these are expensive: don't repeat
double b = cos_theta * cos_psi * cos(mu)
- sin_theta * sin_mu;
- double Hc = atan2(a, b) * SGD_RADIANS_TO_DEGREES;
-
- while (Hc < 0)
- Hc += 360;
- while (Hc >= 360)
- Hc =- 360;
-
- // TODO add acceleration error
- // TODO allow binding with excessive dip/sideslip
-
- _out_node->setDoubleValue(Hc);
-
-
- // algorithm from Alex Perry
- // possibly broken by David Megginson
-
-// // jam on a sideslip of 12 degrees or more
-// if (fabs(_beta_node->getDoubleValue()) > 12.0) {
-// _rate_degps = 0.0;
-// _error_deg = _heading_node->getDoubleValue() -
-// _out_node->getDoubleValue();
-// return;
-// }
-
-// double accelN = _north_accel_node->getDoubleValue();
-// double accelE = _east_accel_node->getDoubleValue();
-// double accelU = _down_accel_node->getDoubleValue() - 32.0; // why?
-
-// // force vector towards magnetic north pole
-// double var = _variation_node->getDoubleValue() * SGD_DEGREES_TO_RADIANS;
-// double dip = _dip_node->getDoubleValue() * SGD_DEGREES_TO_RADIANS;
-// double cosdip = cos(dip);
-// double forceN = cosdip * cos(var);
-// double forceE = cosdip * sin(var);
-// double forceU = sin(dip);
-
-// // rotation is around acceleration axis
-// // (magnitude doesn't matter)
-// double accel = accelN * accelN + accelE * accelE + accelU * accelU;
-// if (accel > 1.0)
-// accel = sqrt(accel);
-// else
-// accel = 1.0;
-
-// // North marking on compass card
-// double edgeN = cos(_error_deg * SGD_DEGREES_TO_RADIANS);
-// double edgeE = sin(_error_deg * SGD_DEGREES_TO_RADIANS);
-// double edgeU = 0.0;
-
-// // apply the force to that edge to get torques
-// double torqueN = edgeE * forceU - edgeU * forceE;
-// double torqueE = edgeU * forceN - edgeN * forceU;
-// double torqueU = edgeN * forceE - edgeE * forceN;
-
-// // get the component parallel to the axis
-// double torque = (torqueN * accelN +
-// torqueE * accelE +
-// torqueU * accelU) * 5.0 / accel;
-
-// // the compass has angular momentum,
-// // so apply a torque and wait
-// if (delta_time_sec < 1.0) {
-// _rate_degps = _rate_degps * (1.0 - delta_time_sec) - torque;
-// _error_deg += delta_time_sec * _rate_degps;
-// }
-// if (_error_deg > 180.0)
-// _error_deg -= 360.0;
-// else if (_error_deg < -180.0)
-// _error_deg += 360.0;
-
-// // Set the indicated heading
-// _out_node->setDoubleValue(_heading_node->getDoubleValue() - _error_deg);
+ // This is the value that the compass
+ // is *trying* to display.
+ double target_deg = atan2(a, b) * SGD_RADIANS_TO_DEGREES;
+ double old_deg = _out_node->getDoubleValue();
+
+ while ((target_deg - old_deg) > 180.0)
+ target_deg -= 360.0;
+ while ((target_deg - old_deg) < -180.0)
+ target_deg += 360.0;
+
+ // The compass has a current rate of
+ // rotation -- move the rate of rotation
+ // towards one that will turn the compass
+ // to the correct heading, but lag a bit.
+ // (so that the compass can keep overshooting
+ // and coming back).
+ double error = target_deg - old_deg;
+ _rate_degps = fgGetLowPass(_rate_degps, error, delta_time_sec / 5.0);
+ double indicated_deg = old_deg + _rate_degps * delta_time_sec;
+ SG_NORMALIZE_RANGE(indicated_deg, 0.0, 360.0);
+
+ // That's it -- set the messed-up heading.
+ _out_node->setDoubleValue(indicated_deg);
}
// end of altimeter.cxx