2011-03-19 07:20:11 -03:00
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/// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil -*-
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2010-12-19 12:40:33 -04:00
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2011-07-10 21:47:08 -03:00
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// XXX TODO: convert these PI rate controlers to a Class
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2011-07-17 07:32:00 -03:00
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static int
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2011-07-10 21:47:08 -03:00
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get_stabilize_roll(long target_angle)
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2010-12-19 12:40:33 -04:00
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{
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2011-07-10 21:47:08 -03:00
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long error;
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long rate;
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2011-01-25 01:53:36 -04:00
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2011-07-10 21:47:08 -03:00
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error = wrap_180(target_angle - dcm.roll_sensor);
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2011-01-25 01:53:36 -04:00
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2011-07-10 21:47:08 -03:00
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// limit the error we're feeding to the PID
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error = constrain(error, -2500, 2500);
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// desired Rate:
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rate = g.pid_stabilize_roll.get_pi((float)error, delta_ms_fast_loop, 1.0);
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//Serial.printf("%d\t%d\t%d ", (int)target_angle, (int)error, (int)rate);
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2011-08-13 06:37:01 -03:00
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#if FRAME_CONFIG != HELI_FRAME // cannot use rate control for helicopters
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2011-07-10 21:47:08 -03:00
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// Rate P:
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error = rate - (long)(degrees(omega.x) * 100.0);
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rate = g.pid_rate_roll.get_pi((float)error, delta_ms_fast_loop, 1.0);
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//Serial.printf("%d\t%d\n", (int)error, (int)rate);
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2011-08-13 06:37:01 -03:00
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#endif
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2011-07-10 21:47:08 -03:00
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// output control:
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2011-08-13 06:37:01 -03:00
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return (int)constrain(rate, -2500, 2500);
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2011-04-25 02:12:59 -03:00
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}
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2011-07-17 07:32:00 -03:00
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static int
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2011-07-10 21:47:08 -03:00
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get_stabilize_pitch(long target_angle)
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2011-01-25 01:53:36 -04:00
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{
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2011-07-10 21:47:08 -03:00
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long error;
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long rate;
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2011-02-17 05:36:33 -04:00
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2011-07-10 21:47:08 -03:00
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error = wrap_180(target_angle - dcm.pitch_sensor);
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2011-02-17 05:36:33 -04:00
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2010-12-19 12:40:33 -04:00
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// limit the error we're feeding to the PID
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2011-04-10 17:31:33 -03:00
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error = constrain(error, -2500, 2500);
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2011-07-10 21:47:08 -03:00
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// desired Rate:
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rate = g.pid_stabilize_pitch.get_pi((float)error, delta_ms_fast_loop, 1.0);
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//Serial.printf("%d\t%d\t%d ", (int)target_angle, (int)error, (int)rate);
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2010-12-19 12:40:33 -04:00
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2011-08-13 06:37:01 -03:00
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#if FRAME_CONFIG != HELI_FRAME // cannot use rate control for helicopters
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2011-07-10 21:47:08 -03:00
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// Rate P:
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error = rate - (long)(degrees(omega.y) * 100.0);
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rate = g.pid_rate_pitch.get_pi((float)error, delta_ms_fast_loop, 1.0);
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//Serial.printf("%d\t%d\n", (int)error, (int)rate);
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2011-08-13 06:37:01 -03:00
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#endif
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2011-07-10 21:47:08 -03:00
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// output control:
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return (int)constrain(rate, -2500, 2500);
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2011-01-25 01:53:36 -04:00
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}
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2011-07-17 07:32:00 -03:00
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static int
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2011-07-10 21:54:00 -03:00
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get_stabilize_yaw(long target_angle, float scaler)
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2011-01-25 01:53:36 -04:00
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{
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2011-07-10 21:47:08 -03:00
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long error;
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long rate;
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error = wrap_180(target_angle - dcm.yaw_sensor);
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2011-02-17 05:36:33 -04:00
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2011-01-25 01:53:36 -04:00
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// limit the error we're feeding to the PID
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2011-07-10 21:47:08 -03:00
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error = constrain(error, -4500, 4500);
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2011-04-10 17:31:33 -03:00
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2011-07-10 21:47:08 -03:00
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// desired Rate:
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2011-07-10 21:54:00 -03:00
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rate = g.pid_stabilize_yaw.get_pi((float)error, delta_ms_fast_loop, scaler);
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2011-07-10 21:47:08 -03:00
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//Serial.printf("%u\t%d\t%d\t", (int)target_angle, (int)error, (int)rate);
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2011-01-25 01:53:36 -04:00
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2011-08-13 06:37:01 -03:00
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#if FRAME_CONFIG == HELI_FRAME // cannot use rate control for helicopters
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if( ! g.heli_ext_gyro_enabled ) {
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// Rate P:
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error = rate - (long)(degrees(omega.z) * 100.0);
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rate = g.pid_rate_yaw.get_pi((float)error, delta_ms_fast_loop, 1.0);
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}
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#else
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2011-07-10 21:47:08 -03:00
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// Rate P:
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error = rate - (long)(degrees(omega.z) * 100.0);
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rate = g.pid_rate_yaw.get_pi((float)error, delta_ms_fast_loop, 1.0);
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//Serial.printf("%d\t%d\n", (int)error, (int)rate);
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2011-08-13 06:37:01 -03:00
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#endif
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2011-07-10 21:47:08 -03:00
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// output control:
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return (int)constrain(rate, -2500, 2500);
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2010-12-19 12:40:33 -04:00
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}
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2011-07-17 07:32:00 -03:00
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static int
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2011-07-10 21:47:08 -03:00
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get_rate_roll(long target_rate)
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2011-01-25 01:53:36 -04:00
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{
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2011-07-10 21:47:08 -03:00
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long error;
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target_rate = constrain(target_rate, -2500, 2500);
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error = (target_rate * 4.5) - (long)(degrees(omega.x) * 100.0);
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target_rate = g.pid_rate_roll.get_pi((float)error, delta_ms_fast_loop, 1.0);
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2011-01-25 01:53:36 -04:00
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2011-07-10 21:47:08 -03:00
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// output control:
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return (int)constrain(target_rate, -2500, 2500);
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2011-01-25 01:53:36 -04:00
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}
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2010-12-19 12:40:33 -04:00
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2011-07-17 07:32:00 -03:00
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static int
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2011-07-10 21:47:08 -03:00
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get_rate_pitch(long target_rate)
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2010-12-19 12:40:33 -04:00
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{
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2011-07-10 21:47:08 -03:00
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long error;
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target_rate = constrain(target_rate, -2500, 2500);
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error = (target_rate * 4.5) - (long)(degrees(omega.y) * 100.0);
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target_rate = g.pid_rate_pitch.get_pi((float)error, delta_ms_fast_loop, 1.0);
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2011-01-25 01:53:36 -04:00
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2011-07-10 21:47:08 -03:00
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// output control:
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return (int)constrain(target_rate, -2500, 2500);
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2011-01-25 01:53:36 -04:00
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}
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2011-07-17 07:32:00 -03:00
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static int
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2011-07-10 21:47:08 -03:00
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get_rate_yaw(long target_rate)
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{
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long error;
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error = (target_rate * 4.5) - (long)(degrees(omega.z) * 100.0);
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target_rate = g.pid_rate_yaw.get_pi((float)error, delta_ms_fast_loop, 1.0);
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// output control:
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return (int)constrain(target_rate, -2500, 2500);
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}
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2010-12-19 12:40:33 -04:00
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// Zeros out navigation Integrators if we are changing mode, have passed a waypoint, etc.
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// Keeps outdated data out of our calculations
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2011-07-17 07:32:00 -03:00
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static void
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2011-08-01 02:12:10 -03:00
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reset_nav_I(void)
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2010-12-19 12:40:33 -04:00
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{
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2011-08-01 02:12:10 -03:00
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g.pid_nav_lat.reset_I();
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g.pid_nav_lon.reset_I();
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g.pid_nav_wp.reset_I();
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g.pid_crosstrack.reset_I();
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g.pid_throttle.reset_I();
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2011-04-25 02:12:59 -03:00
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// I removed these, they don't seem to be needed.
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2010-12-19 12:40:33 -04:00
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}
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2011-02-19 22:03:01 -04:00
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/*************************************************************
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throttle control
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****************************************************************/
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// user input:
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// -----------
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2011-07-17 07:32:00 -03:00
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static int
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2011-07-10 21:47:08 -03:00
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get_throttle(int throttle_input)
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2011-06-16 14:03:26 -03:00
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{
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2011-07-10 21:47:08 -03:00
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throttle_input = (float)throttle_input * angle_boost();
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2011-08-13 23:30:37 -03:00
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//throttle_input = max(throttle_slew, throttle_input);
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2011-07-10 21:47:08 -03:00
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return max(throttle_input, 0);
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2011-06-16 14:03:26 -03:00
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}
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2011-07-17 07:32:00 -03:00
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static long
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2011-07-16 19:12:52 -03:00
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get_nav_yaw_offset(int yaw_input, int reset)
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2011-02-19 22:03:01 -04:00
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{
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2011-07-10 21:47:08 -03:00
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long _yaw;
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2011-02-21 00:30:56 -04:00
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2011-07-16 19:12:52 -03:00
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if(reset == 0){
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2011-07-10 21:47:08 -03:00
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// we are on the ground
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return dcm.yaw_sensor;
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2011-02-21 00:30:56 -04:00
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2011-02-24 01:56:59 -04:00
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}else{
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2011-07-10 21:47:08 -03:00
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// re-define nav_yaw if we have stick input
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if(yaw_input != 0){
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// set nav_yaw + or - the current location
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_yaw = (long)yaw_input + dcm.yaw_sensor;
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// we need to wrap our value so we can be 0 to 360 (*100)
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return wrap_360(_yaw);
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2011-07-30 17:42:54 -03:00
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2011-07-10 21:47:08 -03:00
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}else{
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2011-07-30 17:42:54 -03:00
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// no stick input, lets not change nav_yaw
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2011-07-10 21:47:08 -03:00
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return nav_yaw;
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}
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2011-02-19 22:03:01 -04:00
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}
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}
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2011-07-10 21:47:08 -03:00
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/*
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2011-07-17 07:32:00 -03:00
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static int alt_hold_velocity()
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2011-07-10 21:47:08 -03:00
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{
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// subtract filtered Accel
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float error = abs(next_WP.alt - current_loc.alt);
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error = min(error, 200);
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error = 1 - (error/ 200.0);
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return (accels_rot.z + 9.81) * accel_gain * error;
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}*/
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2011-07-17 07:32:00 -03:00
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static float angle_boost()
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2011-02-19 22:03:01 -04:00
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{
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float temp = cos_pitch_x * cos_roll_x;
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2011-04-21 20:07:31 -03:00
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temp = 2.0 - constrain(temp, .5, 1.0);
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2011-02-19 22:03:01 -04:00
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return temp;
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}
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