413 lines
15 KiB
C
413 lines
15 KiB
C
/***************************************************************************
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TITLE: ls_generic.h
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----------------------------------------------------------------------------
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FUNCTION: LaRCSim generic parameters header file
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----------------------------------------------------------------------------
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MODULE STATUS: developmental
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----------------------------------------------------------------------------
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GENEALOGY: Created 15 DEC 1993 by Bruce Jackson;
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was part of old ls_eom.h header
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----------------------------------------------------------------------------
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DESIGNED BY: B. Jackson
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CODED BY: B. Jackson
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MAINTAINED BY: guess who
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----------------------------------------------------------------------------
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MODIFICATION HISTORY:
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DATE PURPOSE BY
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----------------------------------------------------------------------------
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REFERENCES:
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[ 1] McFarland, Richard E.: "A Standard Kinematic Model
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for Flight Simulation at NASA-Ames", NASA CR-2497,
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January 1975
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[ 2] ANSI/AIAA R-004-1992 "Recommended Practice: Atmos-
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pheric and Space Flight Vehicle Coordinate Systems",
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February 1992
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[ 3] Beyer, William H., editor: "CRC Standard Mathematical
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Tables, 28th edition", CRC Press, Boca Raton, FL, 1987,
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ISBN 0-8493-0628-0
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[ 4] Dowdy, M. C.; Jackson, E. B.; and Nichols, J. H.:
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"Controls Analysis and Simulation Test Loop Environ-
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ment (CASTLE) Programmer's Guide, Version 1.3",
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NATC TM 89-11, 30 March 1989.
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[ 5] Halliday, David; and Resnick, Robert: "Fundamentals
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of Physics, Revised Printing", Wiley and Sons, 1974.
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ISBN 0-471-34431-1
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[ 6] Anon: "U. S. Standard Atmosphere, 1962"
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[ 7] Anon: "Aeronautical Vest Pocket Handbook, 17th edition",
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Pratt & Whitney Aircraft Group, Dec. 1977
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[ 8] Stevens, Brian L.; and Lewis, Frank L.: "Aircraft
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Control and Simulation", Wiley and Sons, 1992.
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ISBN 0-471-61397-5
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--------------------------------------------------------------------------*/
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#ifndef _LS_GENERIC_H
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#define _LS_GENERIC_H
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typedef struct {
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/*================== Mass properties and geometry values ==================*/
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DATA mass, i_xx, i_yy, i_zz, i_xz; /* Inertias */
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#define Mass generic_.mass
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#define I_xx generic_.i_xx
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#define I_yy generic_.i_yy
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#define I_zz generic_.i_zz
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#define I_xz generic_.i_xz
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VECTOR_3 d_pilot_rp_body_v; /* Pilot location rel to ref pt */
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#define D_pilot_rp_body_v generic_.d_pilot_rp_body_v
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#define Dx_pilot generic_.d_pilot_rp_body_v[0]
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#define Dy_pilot generic_.d_pilot_rp_body_v[1]
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#define Dz_pilot generic_.d_pilot_rp_body_v[2]
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VECTOR_3 d_cg_rp_body_v; /* CG position w.r.t. ref. point */
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#define D_cg_rp_body_v generic_.d_cg_rp_body_v
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#define Dx_cg generic_.d_cg_rp_body_v[0]
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#define Dy_cg generic_.d_cg_rp_body_v[1]
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#define Dz_cg generic_.d_cg_rp_body_v[2]
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/*================================ Forces =================================*/
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VECTOR_3 f_body_total_v;
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#define F_body_total_v generic_.f_body_total_v
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#define F_X generic_.f_body_total_v[0]
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#define F_Y generic_.f_body_total_v[1]
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#define F_Z generic_.f_body_total_v[2]
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VECTOR_3 f_local_total_v;
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#define F_local_total_v generic_.f_local_total_v
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#define F_north generic_.f_local_total_v[0]
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#define F_east generic_.f_local_total_v[1]
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#define F_down generic_.f_local_total_v[2]
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VECTOR_3 f_aero_v;
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#define F_aero_v generic_.f_aero_v
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#define F_X_aero generic_.f_aero_v[0]
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#define F_Y_aero generic_.f_aero_v[1]
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#define F_Z_aero generic_.f_aero_v[2]
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VECTOR_3 f_engine_v;
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#define F_engine_v generic_.f_engine_v
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#define F_X_engine generic_.f_engine_v[0]
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#define F_Y_engine generic_.f_engine_v[1]
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#define F_Z_engine generic_.f_engine_v[2]
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VECTOR_3 f_gear_v;
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#define F_gear_v generic_.f_gear_v
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#define F_X_gear generic_.f_gear_v[0]
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#define F_Y_gear generic_.f_gear_v[1]
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#define F_Z_gear generic_.f_gear_v[2]
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/*================================ Moments ================================*/
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VECTOR_3 m_total_rp_v;
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#define M_total_rp_v generic_.m_total_rp_v
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#define M_l_rp generic_.m_total_rp_v[0]
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#define M_m_rp generic_.m_total_rp_v[1]
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#define M_n_rp generic_.m_total_rp_v[2]
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VECTOR_3 m_total_cg_v;
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#define M_total_cg_v generic_.m_total_cg_v
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#define M_l_cg generic_.m_total_cg_v[0]
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#define M_m_cg generic_.m_total_cg_v[1]
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#define M_n_cg generic_.m_total_cg_v[2]
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VECTOR_3 m_aero_v;
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#define M_aero_v generic_.m_aero_v
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#define M_l_aero generic_.m_aero_v[0]
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#define M_m_aero generic_.m_aero_v[1]
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#define M_n_aero generic_.m_aero_v[2]
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VECTOR_3 m_engine_v;
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#define M_engine_v generic_.m_engine_v
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#define M_l_engine generic_.m_engine_v[0]
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#define M_m_engine generic_.m_engine_v[1]
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#define M_n_engine generic_.m_engine_v[2]
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VECTOR_3 m_gear_v;
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#define M_gear_v generic_.m_gear_v
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#define M_l_gear generic_.m_gear_v[0]
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#define M_m_gear generic_.m_gear_v[1]
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#define M_n_gear generic_.m_gear_v[2]
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/*============================== Accelerations ============================*/
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VECTOR_3 v_dot_local_v;
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#define V_dot_local_v generic_.v_dot_local_v
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#define V_dot_north generic_.v_dot_local_v[0]
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#define V_dot_east generic_.v_dot_local_v[1]
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#define V_dot_down generic_.v_dot_local_v[2]
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VECTOR_3 v_dot_body_v;
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#define V_dot_body_v generic_.v_dot_body_v
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#define U_dot_body generic_.v_dot_body_v[0]
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#define V_dot_body generic_.v_dot_body_v[1]
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#define W_dot_body generic_.v_dot_body_v[2]
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VECTOR_3 a_cg_body_v;
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#define A_cg_body_v generic_.a_cg_body_v
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#define A_X_cg generic_.a_cg_body_v[0]
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#define A_Y_cg generic_.a_cg_body_v[1]
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#define A_Z_cg generic_.a_cg_body_v[2]
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VECTOR_3 a_pilot_body_v;
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#define A_pilot_body_v generic_.a_pilot_body_v
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#define A_X_pilot generic_.a_pilot_body_v[0]
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#define A_Y_pilot generic_.a_pilot_body_v[1]
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#define A_Z_pilot generic_.a_pilot_body_v[2]
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VECTOR_3 n_cg_body_v;
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#define N_cg_body_v generic_.n_cg_body_v
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#define N_X_cg generic_.n_cg_body_v[0]
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#define N_Y_cg generic_.n_cg_body_v[1]
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#define N_Z_cg generic_.n_cg_body_v[2]
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VECTOR_3 n_pilot_body_v;
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#define N_pilot_body_v generic_.n_pilot_body_v
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#define N_X_pilot generic_.n_pilot_body_v[0]
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#define N_Y_pilot generic_.n_pilot_body_v[1]
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#define N_Z_pilot generic_.n_pilot_body_v[2]
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VECTOR_3 omega_dot_body_v;
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#define Omega_dot_body_v generic_.omega_dot_body_v
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#define P_dot_body generic_.omega_dot_body_v[0]
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#define Q_dot_body generic_.omega_dot_body_v[1]
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#define R_dot_body generic_.omega_dot_body_v[2]
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/*============================== Velocities ===============================*/
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VECTOR_3 v_local_v;
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#define V_local_v generic_.v_local_v
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#define V_north generic_.v_local_v[0]
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#define V_east generic_.v_local_v[1]
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#define V_down generic_.v_local_v[2]
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VECTOR_3 v_local_rel_ground_v; /* V rel w.r.t. earth surface */
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#define V_local_rel_ground_v generic_.v_local_rel_ground_v
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#define V_north_rel_ground generic_.v_local_rel_ground_v[0]
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#define V_east_rel_ground generic_.v_local_rel_ground_v[1]
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#define V_down_rel_ground generic_.v_local_rel_ground_v[2]
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VECTOR_3 v_local_airmass_v; /* velocity of airmass (steady winds) */
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#define V_local_airmass_v generic_.v_local_airmass_v
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#define V_north_airmass generic_.v_local_airmass_v[0]
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#define V_east_airmass generic_.v_local_airmass_v[1]
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#define V_down_airmass generic_.v_local_airmass_v[2]
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VECTOR_3 v_local_rel_airmass_v; /* velocity of veh. relative to airmass */
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#define V_local_rel_airmass_v generic_.v_local_rel_airmass_v
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#define V_north_rel_airmass generic_.v_local_rel_airmass_v[0]
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#define V_east_rel_airmass generic_.v_local_rel_airmass_v[1]
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#define V_down_rel_airmass generic_.v_local_rel_airmass_v[2]
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VECTOR_3 v_local_gust_v; /* linear turbulence components, L frame */
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#define V_local_gust_v generic_.v_local_gust_v
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#define U_gust generic_.v_local_gust_v[0]
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#define V_gust generic_.v_local_gust_v[1]
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#define W_gust generic_.v_local_gust_v[2]
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VECTOR_3 v_wind_body_v; /* Wind-relative velocities in body axis */
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#define V_wind_body_v generic_.v_wind_body_v
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#define U_body generic_.v_wind_body_v[0]
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#define V_body generic_.v_wind_body_v[1]
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#define W_body generic_.v_wind_body_v[2]
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DATA v_rel_wind, v_true_kts, v_rel_ground, v_inertial;
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DATA v_ground_speed, v_equiv, v_equiv_kts;
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DATA v_calibrated, v_calibrated_kts;
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#define V_rel_wind generic_.v_rel_wind
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#define V_true_kts generic_.v_true_kts
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#define V_rel_ground generic_.v_rel_ground
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#define V_inertial generic_.v_inertial
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#define V_ground_speed generic_.v_ground_speed
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#define V_equiv generic_.v_equiv
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#define V_equiv_kts generic_.v_equiv_kts
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#define V_calibrated generic_.v_calibrated
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#define V_calibrated_kts generic_.v_calibrated_kts
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VECTOR_3 omega_body_v; /* Angular B rates */
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#define Omega_body_v generic_.omega_body_v
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#define P_body generic_.omega_body_v[0]
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#define Q_body generic_.omega_body_v[1]
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#define R_body generic_.omega_body_v[2]
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VECTOR_3 omega_local_v; /* Angular L rates */
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#define Omega_local_v generic_.omega_local_v
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#define P_local generic_.omega_local_v[0]
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#define Q_local generic_.omega_local_v[1]
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#define R_local generic_.omega_local_v[2]
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VECTOR_3 omega_total_v; /* Diff btw B & L */
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#define Omega_total_v generic_.omega_total_v
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#define P_total generic_.omega_total_v[0]
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#define Q_total generic_.omega_total_v[1]
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#define R_total generic_.omega_total_v[2]
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VECTOR_3 euler_rates_v;
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#define Euler_rates_v generic_.euler_rates_v
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#define Phi_dot generic_.euler_rates_v[0]
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#define Theta_dot generic_.euler_rates_v[1]
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#define Psi_dot generic_.euler_rates_v[2]
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VECTOR_3 geocentric_rates_v; /* Geocentric linear velocities */
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#define Geocentric_rates_v generic_.geocentric_rates_v
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#define Latitude_dot generic_.geocentric_rates_v[0]
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#define Longitude_dot generic_.geocentric_rates_v[1]
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#define Radius_dot generic_.geocentric_rates_v[2]
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/*=============================== Positions ===============================*/
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VECTOR_3 geocentric_position_v;
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#define Geocentric_position_v generic_.geocentric_position_v
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#define Lat_geocentric generic_.geocentric_position_v[0]
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#define Lon_geocentric generic_.geocentric_position_v[1]
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#define Radius_to_vehicle generic_.geocentric_position_v[2]
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VECTOR_3 geodetic_position_v;
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#define Geodetic_position_v generic_.geodetic_position_v
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#define Latitude generic_.geodetic_position_v[0]
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#define Longitude generic_.geodetic_position_v[1]
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#define Altitude generic_.geodetic_position_v[2]
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VECTOR_3 euler_angles_v;
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#define Euler_angles_v generic_.euler_angles_v
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#define Phi generic_.euler_angles_v[0]
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#define Theta generic_.euler_angles_v[1]
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#define Psi generic_.euler_angles_v[2]
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/*======================= Miscellaneous quantities ========================*/
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DATA t_local_to_body_m[3][3]; /* Transformation matrix L to B */
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#define T_local_to_body_m generic_.t_local_to_body_m
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#define T_local_to_body_11 generic_.t_local_to_body_m[0][0]
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#define T_local_to_body_12 generic_.t_local_to_body_m[0][1]
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#define T_local_to_body_13 generic_.t_local_to_body_m[0][2]
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#define T_local_to_body_21 generic_.t_local_to_body_m[1][0]
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#define T_local_to_body_22 generic_.t_local_to_body_m[1][1]
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#define T_local_to_body_23 generic_.t_local_to_body_m[1][2]
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#define T_local_to_body_31 generic_.t_local_to_body_m[2][0]
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#define T_local_to_body_32 generic_.t_local_to_body_m[2][1]
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#define T_local_to_body_33 generic_.t_local_to_body_m[2][2]
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DATA gravity; /* Local acceleration due to G */
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#define Gravity generic_.gravity
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DATA centrifugal_relief; /* load factor reduction due to speed */
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#define Centrifugal_relief generic_.centrifugal_relief
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DATA alpha, beta, alpha_dot, beta_dot; /* in radians */
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#define Alpha generic_.alpha
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#define Beta generic_.beta
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#define Alpha_dot generic_.alpha_dot
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#define Beta_dot generic_.beta_dot
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DATA cos_alpha, sin_alpha, cos_beta, sin_beta;
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#define Cos_alpha generic_.cos_alpha
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#define Sin_alpha generic_.sin_alpha
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#define Cos_beta generic_.cos_beta
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#define Sin_beta generic_.sin_beta
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DATA cos_phi, sin_phi, cos_theta, sin_theta, cos_psi, sin_psi;
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#define Cos_phi generic_.cos_phi
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#define Sin_phi generic_.sin_phi
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#define Cos_theta generic_.cos_theta
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#define Sin_theta generic_.sin_theta
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#define Cos_psi generic_.cos_psi
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#define Sin_psi generic_.sin_psi
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DATA gamma_vert_rad, gamma_horiz_rad; /* Flight path angles */
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#define Gamma_vert_rad generic_.gamma_vert_rad
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#define Gamma_horiz_rad generic_.gamma_horiz_rad
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DATA sigma, density, v_sound, mach_number;
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#define Sigma generic_.sigma
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#define Density generic_.density
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#define V_sound generic_.v_sound
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#define Mach_number generic_.mach_number
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DATA static_pressure, total_pressure, impact_pressure, dynamic_pressure;
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#define Static_pressure generic_.static_pressure
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#define Total_pressure generic_.total_pressure
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#define Impact_pressure generic_.impact_pressure
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#define Dynamic_pressure generic_.dynamic_pressure
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DATA static_temperature, total_temperature;
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#define Static_temperature generic_.static_temperature
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#define Total_temperature generic_.total_temperature
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DATA sea_level_radius, earth_position_angle;
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#define Sea_level_radius generic_.sea_level_radius
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#define Earth_position_angle generic_.earth_position_angle
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DATA runway_altitude, runway_latitude, runway_longitude, runway_heading;
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#define Runway_altitude generic_.runway_altitude
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#define Runway_latitude generic_.runway_latitude
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#define Runway_longitude generic_.runway_longitude
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#define Runway_heading generic_.runway_heading
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DATA radius_to_rwy;
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#define Radius_to_rwy generic_.radius_to_rwy
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VECTOR_3 d_cg_rwy_local_v; /* CG rel. to rwy in local coords */
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#define D_cg_rwy_local_v generic_.d_cg_rwy_local_v
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#define D_cg_north_of_rwy generic_.d_cg_rwy_local_v[0]
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#define D_cg_east_of_rwy generic_.d_cg_rwy_local_v[1]
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#define D_cg_above_rwy generic_.d_cg_rwy_local_v[2]
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VECTOR_3 d_cg_rwy_rwy_v; /* CG relative to runway, in rwy coordinates */
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#define D_cg_rwy_rwy_v generic_.d_cg_rwy_rwy_v
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#define X_cg_rwy generic_.d_cg_rwy_rwy_v[0]
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#define Y_cg_rwy generic_.d_cg_rwy_rwy_v[1]
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#define H_cg_rwy generic_.d_cg_rwy_rwy_v[2]
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VECTOR_3 d_pilot_rwy_local_v; /* pilot rel. to rwy in local coords */
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#define D_pilot_rwy_local_v generic_.d_pilot_rwy_local_v
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#define D_pilot_north_of_rwy generic_.d_pilot_rwy_local_v[0]
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#define D_pilot_east_of_rwy generic_.d_pilot_rwy_local_v[1]
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#define D_pilot_above_rwy generic_.d_pilot_rwy_local_v[2]
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VECTOR_3 d_pilot_rwy_rwy_v; /* pilot rel. to rwy, in rwy coords. */
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#define D_pilot_rwy_rwy_v generic_.d_pilot_rwy_rwy_v
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#define X_pilot_rwy generic_.d_pilot_rwy_rwy_v[0]
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#define Y_pilot_rwy generic_.d_pilot_rwy_rwy_v[1]
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#define H_pilot_rwy generic_.d_pilot_rwy_rwy_v[2]
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} GENERIC;
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extern GENERIC generic_; /* usually defined in ls_main.c */
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#endif /* _LS_GENERIC_H */
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/*--------------------------- end of ls_generic.h ------------------------*/
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