/// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil -*- /* * control_drift.pde - init and run calls for drift flight mode */ #ifndef DRIFT_SPEEDGAIN # define DRIFT_SPEEDGAIN 14.0f #endif #ifndef DRIFT_THR_ASSIST_GAIN # define DRIFT_THR_ASSIST_GAIN 1.8f // gain controlling amount of throttle assistance #endif #ifndef DRIFT_THR_ASSIST_MAX # define DRIFT_THR_ASSIST_MAX 300.0f // maximum assistance throttle assist will provide #endif #ifndef DRIFT_THR_MIN # define DRIFT_THR_MIN 213 // throttle assist will be active when pilot's throttle is above this value #endif #ifndef DRIFT_THR_MAX # define DRIFT_THR_MAX 787 // throttle assist will be active when pilot's throttle is below this value #endif // drift_init - initialise drift controller static bool drift_init(bool ignore_checks) { if (GPS_ok() || ignore_checks) { return true; }else{ return false; } } // drift_run - runs the drift controller // should be called at 100hz or more static void drift_run() { static float breaker = 0.0; int16_t target_roll, target_pitch; float target_yaw_rate; int16_t pilot_throttle_scaled; // if not armed or landed and throttle at zero, set throttle to zero and exit immediately if(!motors.armed() || (ap.land_complete && g.rc_3.control_in <= 0)) { attitude_control.init_targets(); attitude_control.set_throttle_out(0, false); return; } // convert pilot input to lean angles get_pilot_desired_lean_angles(g.rc_1.control_in, g.rc_2.control_in, target_roll, target_pitch); // get pilot's desired throttle pilot_throttle_scaled = get_pilot_desired_throttle(g.rc_3.control_in); // Grab inertial velocity Vector3f vel = inertial_nav.get_velocity(); // rotate roll, pitch input from north facing to vehicle's perspective float roll_vel = vel.y * ahrs.cos_yaw() - vel.x * ahrs.sin_yaw(); // body roll vel float pitch_vel = vel.y * ahrs.sin_yaw() + vel.x * ahrs.cos_yaw(); // body pitch vel float pitch_vel2 = min(fabs(pitch_vel), 800); // simple gain scheduling for yaw input target_yaw_rate = (float)(target_roll/2) * (1.0 - (pitch_vel2 / 2400.0)); roll_vel = constrain_float(roll_vel, -322, 322); pitch_vel = constrain_float(pitch_vel, -322, 322); // always limit roll target_roll = roll_vel * -DRIFT_SPEEDGAIN; // If we let go of sticks, bring us to a stop if(target_pitch == 0){ // .14/ (.03 * 100) = 4.6 seconds till full breaking breaker += .03; breaker = min(breaker, DRIFT_SPEEDGAIN); target_pitch = pitch_vel * breaker; }else{ breaker = 0.0; } // throttle assist - adjusts throttle to slow the vehicle's vertical velocity // Only active when pilot's throttle is between 213 ~ 787 // Assistance is strongest when throttle is at mid, drops linearly to no assistance at 213 and 787 float thr_assist = 0.0f; if (pilot_throttle_scaled > g.throttle_min && pilot_throttle_scaled < g.throttle_max && pilot_throttle_scaled > DRIFT_THR_MIN && pilot_throttle_scaled < DRIFT_THR_MAX) { // calculate throttle assist gain thr_assist = 1.2 - ((float)abs(pilot_throttle_scaled - 500) / 240.0f); thr_assist = constrain_float(thr_assist, 0.0f, 1.0f) * -DRIFT_THR_ASSIST_GAIN * vel.z; // ensure throttle assist never adjusts the throttle by more than 300 pwm thr_assist = constrain_float(thr_assist, -DRIFT_THR_ASSIST_MAX, DRIFT_THR_ASSIST_MAX); // ensure throttle assist never pushes throttle below throttle_min or above throttle_max thr_assist = constrain_float(thr_assist, g.throttle_min - pilot_throttle_scaled, g.throttle_max - pilot_throttle_scaled); } // call attitude controller attitude_control.angle_ef_roll_pitch_rate_ef_yaw_smooth(target_roll, target_pitch, target_yaw_rate, get_smoothing_gain()); // output pilot's throttle with angle boost attitude_control.set_throttle_out(pilot_throttle_scaled + thr_assist, true); }