mirror of https://github.com/ArduPilot/ardupilot
133 lines
5.5 KiB
C++
133 lines
5.5 KiB
C++
#pragma once
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#include <AP_Common/AP_Common.h>
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#include <AP_Param/AP_Param.h>
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#include <AP_Math/AP_Math.h>
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#include <AP_AHRS/AP_AHRS.h> // AHRS library
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#include <AP_InertialNav/AP_InertialNav.h> // Inertial Navigation library
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#include <AC_AttitudeControl/AC_AttitudeControl.h> // Attitude controller library for sqrt controller
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#include <AC_Fence/AC_Fence.h> // Failsafe fence library
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#include <AP_Proximity/AP_Proximity.h>
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#define AC_AVOID_ACCEL_CMSS_MAX 100.0f // maximum acceleration/deceleration in cm/s/s used to avoid hitting fence
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// bit masks for enabled fence types.
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#define AC_AVOID_DISABLED 0 // avoidance disabled
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#define AC_AVOID_STOP_AT_FENCE 1 // stop at fence
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#define AC_AVOID_USE_PROXIMITY_SENSOR 2 // stop based on proximity sensor output
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#define AC_AVOID_ALL 3 // use fence and promiximity sensor
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// definitions for non-GPS avoidance
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#define AC_AVOID_NONGPS_DIST_MAX_DEFAULT 10.0f // objects over 10m away are ignored (default value for DIST_MAX parameter)
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#define AC_AVOID_ANGLE_MAX_PERCENT 0.75f // object avoidance max lean angle as a percentage (expressed in 0 ~ 1 range) of total vehicle max lean angle
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/*
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* This class prevents the vehicle from leaving a polygon fence in
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* 2 dimensions by limiting velocity (adjust_velocity).
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*/
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class AC_Avoid {
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public:
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/// Constructor
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AC_Avoid(const AP_AHRS& ahrs, const AP_InertialNav& inav, const AC_Fence& fence, const AP_Proximity& proximity);
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/*
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* Adjusts the desired velocity so that the vehicle can stop
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* before the fence/object.
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* Note: Vector3f version is for convenience and only adjusts x and y axis
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*/
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void adjust_velocity(float kP, float accel_cmss, Vector2f &desired_vel);
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void adjust_velocity(float kP, float accel_cmss, Vector3f &desired_vel);
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// adjust vertical climb rate so vehicle does not break the vertical fence
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void adjust_velocity_z(float kP, float accel_cmss, float& climb_rate_cms);
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// adjust roll-pitch to push vehicle away from objects
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// roll and pitch value are in centi-degrees
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// angle_max is the user defined maximum lean angle for the vehicle in centi-degrees
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void adjust_roll_pitch(float &roll, float &pitch, float angle_max);
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// enable/disable proximity based avoidance
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void proximity_avoidance_enable(bool on_off) { _proximity_enabled = on_off; }
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bool proximity_avoidance_enabled() { return _proximity_enabled; }
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static const struct AP_Param::GroupInfo var_info[];
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private:
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/*
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* Adjusts the desired velocity for the circular fence.
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*/
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void adjust_velocity_circle_fence(float kP, float accel_cmss, Vector2f &desired_vel);
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/*
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* Adjusts the desired velocity for the polygon fence.
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*/
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void adjust_velocity_polygon_fence(float kP, float accel_cmss, Vector2f &desired_vel);
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/*
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* Adjusts the desired velocity based on output from the proximity sensor
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*/
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void adjust_velocity_proximity(float kP, float accel_cmss, Vector2f &desired_vel);
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/*
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* Adjusts the desired velocity given an array of boundary points
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* earth_frame should be true if boundary is in earth-frame, false for body-frame
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*/
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void adjust_velocity_polygon(float kP, float accel_cmss, Vector2f &desired_vel, const Vector2f* boundary, uint16_t num_points, bool earth_frame);
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/*
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* Limits the component of desired_vel in the direction of the unit vector
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* limit_direction to be at most the maximum speed permitted by the limit_distance.
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*
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* Uses velocity adjustment idea from Randy's second email on this thread:
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* https://groups.google.com/forum/#!searchin/drones-discuss/obstacle/drones-discuss/QwUXz__WuqY/qo3G8iTLSJAJ
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*/
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void limit_velocity(float kP, float accel_cmss, Vector2f &desired_vel, const Vector2f& limit_direction, float limit_distance) const;
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/*
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* Gets the current position or altitude, relative to home (not relative to EKF origin) in cm
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*/
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Vector2f get_position() const;
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float get_alt_above_home() const;
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/*
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* Computes the speed such that the stopping distance
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* of the vehicle will be exactly the input distance.
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*/
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float get_max_speed(float kP, float accel_cmss, float distance) const;
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/*
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* Computes distance required to stop, given current speed.
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*/
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float get_stopping_distance(float kP, float accel_cmss, float speed) const;
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/*
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* Gets the fence margin in cm
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*/
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float get_margin() const { return _fence.get_margin() * 100.0f; }
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/*
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* methods for avoidance in non-GPS flight modes
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*/
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// convert distance (in meters) to a lean percentage (in 0~1 range) for use in manual flight modes
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float distance_to_lean_pct(float dist_m);
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// returns the maximum positive and negative roll and pitch percentages (in -1 ~ +1 range) based on the proximity sensor
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void get_proximity_roll_pitch_pct(float &roll_positive, float &roll_negative, float &pitch_positive, float &pitch_negative);
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// external references
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const AP_AHRS& _ahrs;
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const AP_InertialNav& _inav;
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const AC_Fence& _fence;
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const AP_Proximity& _proximity;
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// parameters
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AP_Int8 _enabled;
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AP_Int16 _angle_max; // maximum lean angle to avoid obstacles (only used in non-GPS flight modes)
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AP_Float _dist_max; // distance (in meters) from object at which obstacle avoidance will begin in non-GPS modes
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bool _proximity_enabled = true; // true if proximity sensor based avoidance is enabled (used to allow pilot to enable/disable)
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};
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