2019-11-28 16:19:17 -04:00
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#include "AC_Autorotation.h"
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#include <AP_Logger/AP_Logger.h>
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#include <AP_RPM/AP_RPM.h>
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#include <AP_AHRS/AP_AHRS.h>
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2024-08-07 12:43:40 -03:00
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// Autorotation controller defaults
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2019-11-28 16:19:17 -04:00
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// Head Speed (HS) controller specific default definitions
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#define HS_CONTROLLER_COLLECTIVE_CUTOFF_FREQ 2.0f // low-pass filter on accel error (unit: hz)
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#define HS_CONTROLLER_HEADSPEED_P 0.7f // Default P gain for head speed controller (unit: -)
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#define HS_CONTROLLER_ENTRY_COL_FILTER 0.7f // Default low pass filter frequency during the entry phase (unit: Hz)
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#define HS_CONTROLLER_GLIDE_COL_FILTER 0.1f // Default low pass filter frequency during the glide phase (unit: Hz)
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// Speed Height controller specific default definitions for autorotation use
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#define FWD_SPD_CONTROLLER_GND_SPEED_TARGET 1100 // Default target ground speed for speed height controller (unit: cm/s)
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#define FWD_SPD_CONTROLLER_MAX_ACCEL 60 // Default acceleration limit for speed height controller (unit: cm/s/s)
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#define AP_FW_VEL_P 0.9f
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#define AP_FW_VEL_FF 0.15f
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const AP_Param::GroupInfo AC_Autorotation::var_info[] = {
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// @Param: ENABLE
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// @DisplayName: Enable settings for RSC Setpoint
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// @Description: Allows you to enable (1) or disable (0) the autonomous autorotation capability.
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// @Values: 0:Disabled,1:Enabled
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// @User: Advanced
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AP_GROUPINFO_FLAGS("ENABLE", 1, AC_Autorotation, _param_enable, 0, AP_PARAM_FLAG_ENABLE),
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// @Param: HS_P
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2021-01-05 04:18:52 -04:00
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// @DisplayName: P gain for head speed controller
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2019-11-28 16:19:17 -04:00
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// @Description: Increase value to increase sensitivity of head speed controller during autonomous autorotation.
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// @Range: 0.3 1
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// @Increment: 0.01
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// @User: Advanced
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AP_SUBGROUPINFO(_p_hs, "HS_", 2, AC_Autorotation, AC_P),
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// @Param: HS_SET_PT
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// @DisplayName: Target Head Speed
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// @Description: The target head speed in RPM during autorotation. Start by setting to desired hover speed and tune from there as necessary.
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// @Units: RPM
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// @Range: 1000 2800
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// @Increment: 1
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// @User: Advanced
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AP_GROUPINFO("HS_SET_PT", 3, AC_Autorotation, _param_head_speed_set_point, 1500),
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// @Param: TARG_SP
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// @DisplayName: Target Glide Ground Speed
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// @Description: Target ground speed in cm/s for the autorotation controller to try and achieve/ maintain during the glide phase.
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// @Units: cm/s
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// @Range: 800 2000
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// @Increment: 50
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// @User: Advanced
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AP_GROUPINFO("TARG_SP", 4, AC_Autorotation, _param_target_speed, FWD_SPD_CONTROLLER_GND_SPEED_TARGET),
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// @Param: COL_FILT_E
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// @DisplayName: Entry Phase Collective Filter
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// @Description: Cut-off frequency for collective low pass filter. For the entry phase. Acts as a following trim. Must be higher than AROT_COL_FILT_G.
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// @Units: Hz
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// @Range: 0.2 0.5
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// @Increment: 0.01
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// @User: Advanced
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AP_GROUPINFO("COL_FILT_E", 5, AC_Autorotation, _param_col_entry_cutoff_freq, HS_CONTROLLER_ENTRY_COL_FILTER),
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// @Param: COL_FILT_G
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// @DisplayName: Glide Phase Collective Filter
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// @Description: Cut-off frequency for collective low pass filter. For the glide phase. Acts as a following trim. Must be lower than AROT_COL_FILT_E.
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// @Units: Hz
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// @Range: 0.03 0.15
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// @Increment: 0.01
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// @User: Advanced
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AP_GROUPINFO("COL_FILT_G", 6, AC_Autorotation, _param_col_glide_cutoff_freq, HS_CONTROLLER_GLIDE_COL_FILTER),
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// @Param: AS_ACC_MAX
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// @DisplayName: Forward Acceleration Limit
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// @Description: Maximum forward acceleration to apply in speed controller.
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// @Units: cm/s/s
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// @Range: 30 60
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// @Increment: 10
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// @User: Advanced
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AP_GROUPINFO("AS_ACC_MAX", 7, AC_Autorotation, _param_accel_max, FWD_SPD_CONTROLLER_MAX_ACCEL),
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// @Param: HS_SENSOR
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// @DisplayName: Main Rotor RPM Sensor
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// @Description: Allocate the RPM sensor instance to use for measuring head speed. RPM1 = 0. RPM2 = 1.
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// @Units: s
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// @Range: 0.5 3
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// @Increment: 0.1
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// @User: Advanced
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2024-08-07 12:43:40 -03:00
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AP_GROUPINFO("HS_SENSOR", 8, AC_Autorotation, _param_rpm_instance, 0),
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2019-11-28 16:19:17 -04:00
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// @Param: FW_V_P
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// @DisplayName: Velocity (horizontal) P gain
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2023-10-11 04:41:49 -03:00
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// @Description: Velocity (horizontal) P gain. Determines the proportion of the target acceleration based on the velocity error.
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2019-11-28 16:19:17 -04:00
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// @Range: 0.1 6.0
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// @Increment: 0.1
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// @User: Advanced
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2024-08-07 12:43:40 -03:00
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AP_SUBGROUPINFO(_p_fw_vel, "FW_V_", 9, AC_Autorotation, AC_P),
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2019-11-28 16:19:17 -04:00
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// @Param: FW_V_FF
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// @DisplayName: Velocity (horizontal) feed forward
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// @Description: Velocity (horizontal) input filter. Corrects the target acceleration proportionally to the desired velocity.
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// @Range: 0 1
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// @Increment: 0.01
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// @User: Advanced
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2024-08-07 12:43:40 -03:00
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AP_GROUPINFO("FW_V_FF", 10, AC_Autorotation, _param_fwd_k_ff, AP_FW_VEL_FF),
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2019-11-28 16:19:17 -04:00
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AP_GROUPEND
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};
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// Constructor
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2020-09-29 22:28:20 -03:00
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AC_Autorotation::AC_Autorotation() :
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2019-11-28 16:19:17 -04:00
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_p_hs(HS_CONTROLLER_HEADSPEED_P),
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_p_fw_vel(AP_FW_VEL_P)
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{
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AP_Param::setup_object_defaults(this, var_info);
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}
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// Initialisation of head speed controller
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void AC_Autorotation::init_hs_controller()
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{
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// Set initial collective position to be the collective position on initialisation
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_collective_out = 0.4f;
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// Reset feed forward filter
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col_trim_lpf.reset(_collective_out);
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// Reset flags
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_flags.bad_rpm = false;
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// Reset RPM health monitoring
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_unhealthy_rpm_counter = 0;
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_healthy_rpm_counter = 0;
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// Protect against divide by zero
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2022-07-05 00:08:55 -03:00
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_param_head_speed_set_point.set(MAX(_param_head_speed_set_point,500));
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2019-11-28 16:19:17 -04:00
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}
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bool AC_Autorotation::update_hs_glide_controller(float dt)
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{
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// Reset rpm health flag
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_flags.bad_rpm = false;
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_flags.bad_rpm_warning = false;
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2023-10-11 04:41:49 -03:00
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// Get current rpm and update healthy signal counters
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2019-11-28 16:19:17 -04:00
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_current_rpm = get_rpm(true);
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if (_unhealthy_rpm_counter <=30) {
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// Normalised head speed
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float head_speed_norm = _current_rpm / _param_head_speed_set_point;
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// Set collective trim low pass filter cut off frequency
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col_trim_lpf.set_cutoff_frequency(_col_cutoff_freq);
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// Calculate the head speed error. Current rpm is normalised by the set point head speed.
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// Target head speed is defined as a percentage of the set point.
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_head_speed_error = head_speed_norm - _target_head_speed;
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_p_term_hs = _p_hs.get_p(_head_speed_error);
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// Adjusting collective trim using feed forward (not yet been updated, so this value is the previous time steps collective position)
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_ff_term_hs = col_trim_lpf.apply(_collective_out, dt);
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// Calculate collective position to be set
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_collective_out = _p_term_hs + _ff_term_hs;
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} else {
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// RPM sensor is bad set collective to minimum
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_collective_out = -1.0f;
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_flags.bad_rpm_warning = true;
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}
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// Send collective to setting to motors output library
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set_collective(HS_CONTROLLER_COLLECTIVE_CUTOFF_FREQ);
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return _flags.bad_rpm_warning;
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}
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// Function to set collective and collective filter in motor library
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2021-02-01 12:26:25 -04:00
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void AC_Autorotation::set_collective(float collective_filter_cutoff) const
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2019-11-28 16:19:17 -04:00
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{
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AP_Motors *motors = AP::motors();
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if (motors) {
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motors->set_throttle_filter_cutoff(collective_filter_cutoff);
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motors->set_throttle(_collective_out);
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}
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}
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//function that gets rpm and does rpm signal checking to ensure signal is reliable
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//before using it in the controller
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float AC_Autorotation::get_rpm(bool update_counter)
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{
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2022-07-15 08:53:41 -03:00
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float current_rpm = 0.0f;
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#if AP_RPM_ENABLED
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2019-11-28 16:19:17 -04:00
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// Get singleton for RPM library
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const AP_RPM *rpm = AP_RPM::get_singleton();
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//Get current rpm, checking to ensure no nullptr
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if (rpm != nullptr) {
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//Check requested rpm instance to ensure either 0 or 1. Always defaults to 0.
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if ((_param_rpm_instance > 1) || (_param_rpm_instance < 0)) {
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2022-07-05 00:08:55 -03:00
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_param_rpm_instance.set(0);
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2019-11-28 16:19:17 -04:00
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}
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//Get RPM value
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uint8_t instance = _param_rpm_instance;
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2023-10-11 04:41:49 -03:00
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//Check RPM sensor is returning a healthy status
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2020-03-05 19:50:51 -04:00
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if (!rpm->get_rpm(instance, current_rpm) || current_rpm <= -1) {
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2019-11-28 16:19:17 -04:00
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//unhealthy, rpm unreliable
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_flags.bad_rpm = true;
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}
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} else {
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_flags.bad_rpm = true;
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}
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2022-07-15 08:53:41 -03:00
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#else
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_flags.bad_rpm = true;
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#endif
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2019-11-28 16:19:17 -04:00
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if (_flags.bad_rpm) {
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//count unhealthy rpm updates and reset healthy rpm counter
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_unhealthy_rpm_counter++;
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_healthy_rpm_counter = 0;
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} else if (!_flags.bad_rpm && _unhealthy_rpm_counter > 0) {
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//poor rpm reading may have cleared. Wait 10 update cycles to clear.
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_healthy_rpm_counter++;
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if (_healthy_rpm_counter >= 10) {
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//poor rpm health has cleared, reset counters
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_unhealthy_rpm_counter = 0;
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_healthy_rpm_counter = 0;
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}
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}
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return current_rpm;
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}
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2023-07-13 21:58:04 -03:00
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#if HAL_LOGGING_ENABLED
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2021-02-01 12:26:25 -04:00
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void AC_Autorotation::Log_Write_Autorotation(void) const
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{
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2020-07-20 01:55:47 -03:00
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// @LoggerMessage: AROT
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2021-02-08 13:26:26 -04:00
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// @Vehicles: Copter
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2020-07-20 01:55:47 -03:00
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// @Description: Helicopter AutoRotation information
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// @Field: TimeUS: Time since system startup
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// @Field: P: P-term for headspeed controller response
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// @Field: hserr: head speed error; difference between current and desired head speed
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// @Field: ColOut: Collective Out
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// @Field: FFCol: FF-term for headspeed controller response
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// @Field: CRPM: current headspeed RPM
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// @Field: SpdF: current forward speed
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// @Field: CmdV: desired forward speed
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// @Field: p: p-term of velocity response
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// @Field: ff: ff-term of velocity response
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// @Field: AccO: forward acceleration output
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// @Field: AccT: forward acceleration target
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// @Field: PitT: pitch target
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2019-11-28 16:19:17 -04:00
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//Write to data flash log
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2021-08-17 06:57:41 -03:00
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AP::logger().WriteStreaming("AROT",
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"TimeUS,P,hserr,ColOut,FFCol,CRPM,SpdF,CmdV,p,ff,AccO,AccT,PitT",
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"Qffffffffffff",
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AP_HAL::micros64(),
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(double)_p_term_hs,
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(double)_head_speed_error,
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(double)_collective_out,
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(double)_ff_term_hs,
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(double)_current_rpm,
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(double)_speed_forward,
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(double)_cmd_vel,
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(double)_vel_p,
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(double)_vel_ff,
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(double)_accel_out,
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(double)_accel_target,
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(double)_pitch_target);
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}
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2023-07-13 21:58:04 -03:00
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#endif // HAL_LOGGING_ENABLED
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2019-11-28 16:19:17 -04:00
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// Initialise forward speed controller
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void AC_Autorotation::init_fwd_spd_controller(void)
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{
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// Reset I term and acceleration target
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_accel_target = 0.0f;
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// Ensure parameter acceleration doesn't exceed hard-coded limit
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_accel_max = MIN(_param_accel_max, 60.0f);
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// Reset cmd vel and last accel to sensible values
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_cmd_vel = calc_speed_forward(); //(cm/s)
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_accel_out_last = _cmd_vel*_param_fwd_k_ff;
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}
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// set_dt - sets time delta in seconds for all controllers
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void AC_Autorotation::set_dt(float delta_sec)
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{
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_dt = delta_sec;
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}
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// update speed controller
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void AC_Autorotation::update_forward_speed_controller(void)
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{
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// Specify forward velocity component and determine delta velocity with respect to time
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_speed_forward = calc_speed_forward(); //(cm/s)
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_delta_speed_fwd = _speed_forward - _speed_forward_last; //(cm/s)
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_speed_forward_last = _speed_forward; //(cm/s)
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2023-10-11 04:41:49 -03:00
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// Limiting the target velocity based on the max acceleration limit
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2019-11-28 16:19:17 -04:00
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if (_cmd_vel < _vel_target) {
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_cmd_vel += _accel_max * _dt;
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if (_cmd_vel > _vel_target) {
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_cmd_vel = _vel_target;
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}
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} else {
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_cmd_vel -= _accel_max * _dt;
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if (_cmd_vel < _vel_target) {
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_cmd_vel = _vel_target;
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}
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}
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// get p
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_vel_p = _p_fw_vel.get_p(_cmd_vel-_speed_forward);
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// get ff
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_vel_ff = _cmd_vel*_param_fwd_k_ff;
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//calculate acceleration target based on PI controller
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_accel_target = _vel_ff + _vel_p;
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// filter correction acceleration
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_accel_target_filter.set_cutoff_frequency(10.0f);
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_accel_target_filter.apply(_accel_target, _dt);
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//Limits the maximum change in pitch attitude based on acceleration
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if (_accel_target > _accel_out_last + _accel_max) {
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_accel_target = _accel_out_last + _accel_max;
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} else if (_accel_target < _accel_out_last - _accel_max) {
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_accel_target = _accel_out_last - _accel_max;
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}
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//Limiting acceleration based on velocity gained during the previous time step
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if (fabsf(_delta_speed_fwd) > _accel_max * _dt) {
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_flag_limit_accel = true;
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} else {
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_flag_limit_accel = false;
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}
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if ((_flag_limit_accel && fabsf(_accel_target) < fabsf(_accel_out_last)) || !_flag_limit_accel) {
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_accel_out = _accel_target;
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} else {
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_accel_out = _accel_out_last;
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}
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_accel_out_last = _accel_out;
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// update angle targets that will be passed to stabilize controller
|
2022-03-14 19:25:53 -03:00
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_pitch_target = accel_to_angle(-_accel_out*0.01) * 100;
|
2019-11-28 16:19:17 -04:00
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}
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// Determine the forward ground speed component from measured components
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|
|
float AC_Autorotation::calc_speed_forward(void)
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{
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|
auto &ahrs = AP::ahrs();
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Vector2f groundspeed_vector = ahrs.groundspeed_vector();
|
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|
float speed_forward = (groundspeed_vector.x*ahrs.cos_yaw() + groundspeed_vector.y*ahrs.sin_yaw())* 100; //(c/s)
|
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|
return speed_forward;
|
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|
}
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