ardupilot/libraries/AP_L1_Control/AP_L1_Control.h

97 lines
2.6 KiB
C++

// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: t -*-
/// @file AP_L1_Control.h
/// @brief L1 Control algorithm. This is a instance of an
/// AP_Navigation class
/*
* Originally written by Brandon Jones 2013
*
* Modified by Paul Riseborough 2013 to provide:
* - Explicit control over frequency and damping
* - Explicit control over track capture angle
* - Ability to use loiter radius smaller than L1 length
*/
#ifndef AP_L1_CONTROL_H
#define AP_L1_CONTROL_H
#include <AP_Math.h>
#include <AP_AHRS.h>
#include <AP_Param.h>
#include <AP_Navigation.h>
class AP_L1_Control : public AP_Navigation {
public:
AP_L1_Control(AP_AHRS *ahrs) :
_ahrs(ahrs)
{
AP_Param::setup_object_defaults(this, var_info);
}
/* see AP_Navigation.h for the definitions and units of these
* functions */
int32_t nav_roll_cd(void);
// return the desired track heading angle(centi-degrees)
int32_t nav_bearing_cd(void);
// return the heading error angle (centi-degrees) +ve to left of track
int32_t bearing_error_cd(void);
float crosstrack_error(void);
int32_t target_bearing_cd(void);
float turn_distance(float wp_radius);
void update_waypoint(const struct Location &prev_WP, const struct Location &next_WP);
void update_loiter(const struct Location &center_WP, float radius, int8_t loiter_direction);
void update_heading_hold(int32_t navigation_heading_cd);
void update_level_flight(void);
bool reached_loiter_target(void);
// this supports the NAVl1_* user settable parameters
static const struct AP_Param::GroupInfo var_info[];
private:
// reference to the AHRS object
AP_AHRS *_ahrs;
// lateral acceration in m/s required to fly to the
// L1 reference point (+ve to right)
float _latAccDem;
// L1 tracking distance in meters which is dynamically updated
float _L1_dist;
// Status which is true when the vehicle has started circling the WP
bool _WPcircle;
// bearing angle (radians) to L1 point
float _nav_bearing;
// bearing error angle (radians) +ve to left of track
float _bearing_error;
// crosstrack error in meters
float _crosstrack_error;
// target bearing in centi-degrees from last update
int32_t _target_bearing_cd;
// L1 tracking loop period (sec)
AP_Float _L1_period;
// L1 tracking loop damping ratio
AP_Float _L1_damping;
// Convert a 2D vector from latitude and longitude to planar
// coordinates based on a reference point
Vector2f _geo2planar(const Vector2f &ref, const Vector2f &wp) const;
//Calculate the maximum of two floating point numbers
float _maxf(const float &num1, const float &num2) const;
};
#endif //AP_L1_CONTROL_H