ardupilot/libraries/APM_Control/AP_PitchController.cpp

99 lines
2.8 KiB
C++

// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: t -*-
// Code by Jon Challinger
//
// This library is free software; you can redistribute it and / or
// modify it under the terms of the GNU Lesser General Public
// License as published by the Free Software Foundation; either
// version 2.1 of the License, or (at your option) any later version.
#include <math.h>
#include <AP_HAL.h>
#include "AP_PitchController.h"
extern const AP_HAL::HAL& hal;
const AP_Param::GroupInfo AP_PitchController::var_info[] PROGMEM = {
AP_GROUPINFO("AP", 0, AP_PitchController, _kp_angle, 1.0),
AP_GROUPINFO("FF", 1, AP_PitchController, _kp_ff, 0.4),
AP_GROUPINFO("RP", 2, AP_PitchController, _kp_rate, 0.0),
AP_GROUPINFO("RI", 3, AP_PitchController, _ki_rate, 0.0),
AP_GROUPINFO("RMAX_U", 4, AP_PitchController, _max_rate_pos, 0.0),
AP_GROUPINFO("RMAX_D", 5, AP_PitchController, _max_rate_neg, 0.0),
AP_GROUPINFO("RLL_FF", 6, AP_PitchController, _roll_ff, 0.0),
AP_GROUPINFO("STAB_GAIN", 7, AP_PitchController, _stabilize_gain, 1),
AP_GROUPEND
};
int32_t AP_PitchController::get_servo_out(int32_t angle, float scaler, bool stabilize)
{
uint32_t tnow = hal.scheduler->millis();
uint32_t dt = tnow - _last_t;
if (_last_t == 0 || dt > 1000) {
dt = 0;
}
_last_t = tnow;
if(_ahrs == NULL) return 0;
float delta_time = (float)dt / 1000.0;
int8_t inv = 1;
if(abs(_ahrs->roll_sensor)>9000) inv = -1;
int32_t angle_err = angle - _ahrs->pitch_sensor;
angle_err *= inv;
float rate = _ahrs->get_pitch_rate_earth();
float RC = 1/(2*M_PI*_fCut);
rate = _last_rate +
(delta_time / (RC + delta_time)) * (rate - _last_rate);
_last_rate = rate;
float roll_scaler = 1/constrain(cos(_ahrs->roll),.33,1);
int32_t desired_rate = angle_err * _kp_angle;
if (_max_rate_neg && desired_rate < -_max_rate_neg) {
desired_rate = -_max_rate_neg;
} else if (_max_rate_pos && desired_rate > _max_rate_pos) {
desired_rate = _max_rate_pos;
}
desired_rate *= roll_scaler;
if(stabilize) {
desired_rate *= _stabilize_gain;
}
int32_t rate_error = desired_rate - ToDeg(rate)*100;
float roll_ff = _roll_ff * 1000 * (roll_scaler-1.0);
if(roll_ff > 4500)
roll_ff = 4500;
else if(roll_ff < 0)
roll_ff = 0;
float out = constrain(((rate_error * _kp_rate) + (desired_rate * _kp_ff) + roll_ff) * scaler,-4500,4500);
//rate integrator
if (!stabilize) {
if ((fabs(_ki_rate) > 0) && (dt > 0))
{
_integrator += (rate_error * _ki_rate) * scaler * delta_time;
if (_integrator < -4500-out) _integrator = -4500-out;
else if (_integrator > 4500-out) _integrator = 4500-out;
}
} else {
_integrator = 0;
}
return out + _integrator;
}
void AP_PitchController::reset_I()
{
_integrator = 0;
}