Working on being able to extrapolate a new position and orientation

based on a position, orientation, and time offset.
1999-01-19 17:52:06 +00:00 · 1999-01-19 17:52:06 +00:00 · 3e18bab646
commit 3e18bab646
parent 12dac83b21
4 changed files with 86 additions and 78 deletions
--- a/External/external.cxx
+++ b/External/external.cxx
@ -1,8 +1,8 @@
-// slew.cxx -- the "slew" flight model
+// external.cxx -- externally driven flight model
 //
-// Written by Curtis Olson, started May 1997.
+// Written by Curtis Olson, started January 1998.
 //
-// Copyright (C) 1997  Curtis L. Olson  - curt@infoplane.com
+// Copyright (C) 1998  Curtis L. Olson  - curt@flightgear.org
 //
 // This program is free software; you can redistribute it and/or
 // modify it under the terms of the GNU General Public License as
@ -31,8 +31,7 @@
 // reset flight params to a specific position
-void fgExternalInit( FGState &f, double dt ) {
+void fgExternalInit( FGState &f ) {
 }
@ -43,6 +42,10 @@ void fgExternalUpdate( FGState& f, int multiloop ) {
 // $Log$
 // Revision 1.3  1999/01/19 17:52:11  curt
 // Working on being able to extrapolate a new position and orientation
 // based on a position, orientation, and time offset.
 //
 // Revision 1.2  1998/12/05 15:54:13  curt
 // Renamed class fgFLIGHT to class FGState as per request by JSB.
 //
--- a/External/external.hxx
+++ b/External/external.hxx
@ -36,6 +36,7 @@
 #include <Time/timestamp.hxx>
 /*
 class fgFDM_EXTERNAL {
 public:
@ -61,42 +62,31 @@ public:
    // Velocities
-    // velocity relative to the local aircraft's coordinate system
+    // velocities in geodetic coordinates
-    double V_north;
+    double Latitude_dot;   // rad/sec
-    double V_east;
+    double Longitude_dot;  // rad/sec
-    double V_down;
+    double Altitude_dot;   // feet/sec
-    // rotational rates relative to the coordinate system the body lives in
+    // rotational rates
-    double P_body;
+    double Phi_dot;
-    double Q_body;
+    double Theta_dot;
-    double R_body;
+    double Psi_dot;
    // Accelerations
    // acceleration relative to the local aircraft's coordinate system
    double V_dot_north;
    double V_dot_east;
    double V_dot_down;
    // rotational acceleration relative to the coordinate system the
    // body lives in
    double P_dot_body;
    double Q_dot_body;
    double R_dot_body;
 };
 */
 // reset flight params to a specific position 
-void fgExternalInit( FGState& f, double dt );
+void fgExternalInit( FGState& f );
 // update position based on inputs, positions, velocities, etc.
 void fgExternalUpdate( FGState& f, int multiloop );
 #endif // _EXTERNAL_HXX
 // $Log$
 // Revision 1.5  1999/01/19 17:52:12  curt
 // Working on being able to extrapolate a new position and orientation
 // based on a position, orientation, and time offset.
 //
 // Revision 1.4  1999/01/09 13:37:37  curt
 // Convert fgTIMESTAMP to FGTimeStamp which holds usec instead of ms.
 //
--- a/FDM/flight.cxx
+++ b/FDM/flight.cxx
@ -32,6 +32,7 @@
 #include <Flight/LaRCsim/ls_interface.h>
 #include <Include/fg_constants.h>
 #include <Math/fg_geodesy.hxx>
 #include <Time/timestamp.hxx>
 // base_fdm_state is the internal state that is updated in integer
@ -43,6 +44,31 @@ FGState cur_fdm_state;
 FGState base_fdm_state;
 // Extrapolate fdm based on time_offset (in usec)
 void FGState::extrapolate( int time_offset ) {
    double dt = time_offset / 1000000.0;
    cout << "extrapolating FDM by dt = " << dt << endl;
    double lat = geodetic_position_v[0] + geocentric_rates_v[0] * dt;
    double lat_geoc = geocentric_position_v[0] + geocentric_rates_v[0] * dt;
    double lon = geodetic_position_v[1] + geocentric_rates_v[1] * dt;
    double lon_geoc = geocentric_position_v[1] + geocentric_rates_v[1] * dt;
    double alt = geodetic_position_v[2] + geocentric_rates_v[2] * dt;
    double radius = geocentric_position_v[2] + geocentric_rates_v[2] * dt;
    geodetic_position_v[0] = lat;
    geocentric_position_v[0] = lat_geoc;
    geodetic_position_v[1] = lon;
    geocentric_position_v[1] = lon_geoc;
    geodetic_position_v[2] = alt;
    geocentric_position_v[2] = radius;
 }
 // Initialize the flight model parameters
 int fgFlightModelInit(int model, FGState& f, double dt) {
    double save_alt = 0.0;
@ -78,62 +104,29 @@ int fgFlightModelInit(int model, FGState& f, double dt) {
 	    base_fdm_state.set_Altitude( save_alt );
 	}
    } else if ( model == FGState::FG_EXTERNAL ) {
-	fgExternalInit(base_fdm_state, dt);
+	fgExternalInit(base_fdm_state);
    } else {
 	FG_LOG( FG_FLIGHT, FG_WARN,
 		  "Unimplemented flight model == " << model );
    }
    // set valid time for this record
    base_fdm_state.stamp_time();
    f = base_fdm_state;
    return 1;
 }
 // Extrapolate fdm based on jitter time (in milliseconds)
 static FGState extrapolate_fdm( FGState &base, int jitter ) {
    FGState result;
    double dt = jitter / 1000000.0;
    // cout << "dt = " << dt << endl;
    // start by making a straight up copy
    result = base;
    double lon = base.get_Longitude() + base.get_Longitude_dot() * dt;
    double lon_geoc = base.get_Lon_geocentric() + base.get_Longitude_dot() * dt;
    double lat = base.get_Latitude() + base.get_Latitude_dot() * dt;
    double lat_geoc = base.get_Lat_geocentric() + base.get_Latitude_dot() * dt;
    /*
    cout << "( " << base.get_Longitude() << ", " << 
 	base.get_Latitude() << " )" << endl;
    cout << "( " << lon << ", " << lat << " )" << endl;
    cout << "( " << base.get_Longitude_dot() * dt << ", " << 
 	base.get_Latitude_dot() * dt << ", " << 
 	base.get_Radius_dot() * dt << " )" << endl;
 	*/
    double alt = base.get_Altitude() + base.get_Radius_dot() * dt;
    double radius = base.get_Radius_to_vehicle() + base.get_Radius_dot() * dt;
    // result.set_Longitude( lon );
    // result.set_Latitude( lat );
    // result.set_Altitude( alt );
    // result.set_Geocentric_Position( lon_geoc, lat_geoc, radius );
    return result;
 }
 // Run multiloop iterations of the flight model
-int fgFlightModelUpdate(int model, FGState& f, int multiloop, int jitter) {
+int fgFlightModelUpdate(int model, FGState& f, int multiloop, int time_offset) {
    double time_step, start_elev, end_elev;
    // printf("Altitude = %.2f\n", FG_Altitude * 0.3048);
-    // base_fdm_state = f;
+    // set valid time for this record
    base_fdm_state.stamp_time();
    time_step = (1.0 / DEFAULT_MODEL_HZ) * multiloop;
    start_elev = base_fdm_state.get_Altitude();
@ -142,8 +135,15 @@ int fgFlightModelUpdate(int model, FGState& f, int multiloop, int jitter) {
 	// fgSlewUpdate(f, multiloop);
    } else if ( model == FGState::FG_LARCSIM ) {
 	fgLaRCsimUpdate(base_fdm_state, multiloop);
 	// extrapolate position based on actual time
 	// f = extrapolate_fdm( base_fdm_state, time_offset );
 	f = base_fdm_state;
    } else if ( model == FGState::FG_EXTERNAL ) {
 	// fgExternalUpdate(f, multiloop);
 	FGTimeStamp current;
 	current.stamp();
 	f = base_fdm_state;
 	f.extrapolate( current - base_fdm_state.get_time_stamp() );
    } else {
 	FG_LOG( FG_FLIGHT, FG_WARN,
 		"Unimplemented flight model == " <<  model );
@ -156,8 +156,6 @@ int fgFlightModelUpdate(int model, FGState& f, int multiloop, int jitter) {
 	base_fdm_state.set_Climb_Rate( (end_elev - start_elev) / time_step );
    }
    f = extrapolate_fdm( base_fdm_state, jitter );
    return 1;
 }
@ -184,6 +182,10 @@ void fgFlightModelSetAltitude(int model, double alt_meters) {
 // $Log$
 // Revision 1.11  1999/01/19 17:52:06  curt
 // Working on being able to extrapolate a new position and orientation
 // based on a position, orientation, and time offset.
 //
 // Revision 1.10  1999/01/09 13:37:32  curt
 // Convert fgTIMESTAMP to FGTimeStamp which holds usec instead of ms.
 //
--- a/FDM/flight.hxx
+++ b/FDM/flight.hxx
@ -26,6 +26,11 @@
 #define _FLIGHT_HXX
 #ifndef __cplusplus                                                          
 # error This library requires C++
 #endif                                   
 /* Required get_()
   `FGState::get_Longitude ()'
@ -76,13 +81,8 @@
 */
 #include <Flight/Slew/slew.hxx>
 #ifndef __cplusplus                                                          
 # error This library requires C++
 #endif                                   
 #include <Time/timestamp.hxx>
 typedef double FG_VECTOR_3[3];
@ -775,6 +775,15 @@ public:
    double        climb_rate;           // in feet per second
    inline double get_Climb_Rate() const { return climb_rate; }
    inline void set_Climb_Rate(double rate) { climb_rate = rate; }
    FGTimeStamp valid_stamp;       // time this record is valid
    FGTimeStamp next_stamp;       // time this record is valid
    inline FGTimeStamp get_time_stamp() const { return valid_stamp; }
    inline void stamp_time() { valid_stamp = next_stamp; next_stamp.stamp(); }
    // Extrapolate FDM based on time_offset (in usec)
    void extrapolate( int time_offset );
 };
@ -797,6 +806,10 @@ void fgFlightModelSetAltitude(int model, double alt_meters);
 // $Log$
 // Revision 1.11  1999/01/19 17:52:07  curt
 // Working on being able to extrapolate a new position and orientation
 // based on a position, orientation, and time offset.
 //
 // Revision 1.10  1999/01/09 13:37:33  curt
 // Convert fgTIMESTAMP to FGTimeStamp which holds usec instead of ms.
 //