/******************************************************************************* Module: FGRotation.cpp Author: Jon Berndt Date started: 12/02/98 Purpose: Integrates the rotational EOM Called by: FGFDMExec ------------- Copyright (C) 1999 Jon S. Berndt (jsb@hal-pc.org) ------------- This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. Further information about the GNU General Public License can also be found on the world wide web at http://www.gnu.org. FUNCTIONAL DESCRIPTION -------------------------------------------------------------------------------- This class integrates the rotational EOM. HISTORY -------------------------------------------------------------------------------- 12/02/98 JSB Created ******************************************************************************** COMMENTS, REFERENCES, and NOTES ******************************************************************************** [1] Cooke, Zyda, Pratt, and McGhee, "NPSNET: Flight Simulation Dynamic Modeling Using Quaternions", Presence, Vol. 1, No. 4, pp. 404-420 Naval Postgraduate School, January 1994 [2] D. M. Henderson, "Euler Angles, Quaternions, and Transformation Matrices", JSC 12960, July 1977 [3] Richard E. McFarland, "A Standard Kinematic Model for Flight Simulation at NASA-Ames", NASA CR-2497, January 1975 [4] Barnes W. McCormick, "Aerodynamics, Aeronautics, and Flight Mechanics", Wiley & Sons, 1979 ISBN 0-471-03032-5 [5] Bernard Etkin, "Dynamics of Flight, Stability and Control", Wiley & Sons, 1982 ISBN 0-471-08936-2 The order of rotations used in this class corresponds to a 3-2-1 sequence, or Y-P-R, or Z-Y-X, if you prefer. ******************************************************************************** INCLUDES *******************************************************************************/ #include "FGRotation.h" #include "FGAtmosphere.h" #include "FGState.h" #include "FGFDMExec.h" #include "FGFCS.h" #include "FGAircraft.h" #include "FGTranslation.h" #include "FGPosition.h" #include "FGAuxiliary.h" #include "FGOutput.h" /******************************************************************************* ************************************ CODE ************************************** *******************************************************************************/ FGRotation::FGRotation(FGFDMExec* fdmex) : FGModel(fdmex) { Name = "FGRotation"; Q0dot = Q1dot = Q2dot = Q3dot = 0.0; Pdot = Qdot = Rdot = 0.0; } FGRotation::~FGRotation(void) { } bool FGRotation::Run(void) { float L2, N1, iQtot, sum; if (!FGModel::Run()) { GetState(); lastPdot = Pdot; lastQdot = Qdot; lastRdot = Rdot; L2 = L + Ixz*P*Q - (Izz-Iyy)*R*Q; N1 = N - (Iyy-Ixx)*P*Q - Ixz*R*Q; Pdot = (L2*Izz - N1*Ixz) / (Ixx*Izz - Ixz*Ixz); Qdot = (M - (Ixx-Izz)*P*R - Ixz*(P*P - R*R))/Iyy; Rdot = (N1*Ixx + L2*Ixz) / (Ixx*Izz - Ixz*Ixz); P += dt*rate*(lastPdot + Pdot)/2.0; Q += dt*rate*(lastQdot + Qdot)/2.0; R += dt*rate*(lastRdot + Rdot)/2.0; lastQ0dot = Q0dot; lastQ1dot = Q1dot; lastQ2dot = Q2dot; lastQ3dot = Q3dot; Q0dot = -0.5*(Q1*P + Q2*Q + Q3*R); Q1dot = 0.5*(Q0*P + Q2*R - Q3*Q); Q2dot = 0.5*(Q0*Q + Q3*P - Q1*R); Q3dot = 0.5*(Q0*R + Q1*Q - Q2*P); Q0 += 0.5*dt*rate*(lastQ0dot + Q0dot); Q1 += 0.5*dt*rate*(lastQ1dot + Q1dot); Q2 += 0.5*dt*rate*(lastQ2dot + Q2dot); Q3 += 0.5*dt*rate*(lastQ3dot + Q3dot); sum = Q0*Q0 + Q1*Q1 + Q2*Q2 + Q3*Q3; iQtot = 1.0 / sqrt(sum); Q0 *= iQtot; Q1 *= iQtot; Q2 *= iQtot; Q3 *= iQtot; if (T[3][3] == 0) phi = 0.0; else phi = atan2(T[2][3], T[3][3]); tht = asin(-T[1][3]); if (T[1][1] == 0.0) psi = 0.0; else psi = atan2(T[1][2], T[1][1]); if (psi < 0.0) psi += 2*M_PI; PutState(); } else { } return false; } void FGRotation::GetState(void) { dt = State->Getdt(); L = Aircraft->GetL(); M = Aircraft->GetM(); N = Aircraft->GetN(); Ixx = Aircraft->GetIxx(); Iyy = Aircraft->GetIyy(); Izz = Aircraft->GetIzz(); Ixz = Aircraft->GetIxz(); for (int r=1;r<=3;r++) for (int c=1;c<=3;c++) T[r][c] = Position->GetT(r,c); } void FGRotation::PutState(void) { }