mirror of https://github.com/ArduPilot/ardupilot
115 lines
4.1 KiB
C++
115 lines
4.1 KiB
C++
#include "Rover.h"
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#include <AP_RangeFinder/AP_RangeFinder_Backend.h>
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// check for new compass data - 10Hz
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void Rover::update_compass(void)
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{
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compass.read();
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}
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// Save compass offsets
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void Rover::compass_save() {
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if (AP::compass().available() &&
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compass.get_learn_type() >= Compass::LEARN_INTERNAL &&
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!arming.is_armed()) {
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compass.save_offsets();
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}
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}
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// update wheel encoders
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void Rover::update_wheel_encoder()
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{
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// exit immediately if not enabled
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if (g2.wheel_encoder.num_sensors() == 0) {
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return;
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}
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// update encoders
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g2.wheel_encoder.update();
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// save cumulative distances at current time (in meters) for reporting to GCS
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for (uint8_t i = 0; i < g2.wheel_encoder.num_sensors(); i++) {
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wheel_encoder_last_distance_m[i] = g2.wheel_encoder.get_distance(i);
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}
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// send wheel encoder delta angle and delta time to EKF
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// this should not be done at more than 50hz
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// initialise on first iteration
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if (!wheel_encoder_initialised) {
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wheel_encoder_initialised = true;
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for (uint8_t i = 0; i < g2.wheel_encoder.num_sensors(); i++) {
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wheel_encoder_last_angle_rad[i] = g2.wheel_encoder.get_delta_angle(i);
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wheel_encoder_last_reading_ms[i] = g2.wheel_encoder.get_last_reading_ms(i);
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}
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return;
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}
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// on each iteration send data from alternative wheel encoders
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wheel_encoder_last_index_sent++;
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if (wheel_encoder_last_index_sent >= g2.wheel_encoder.num_sensors()) {
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wheel_encoder_last_index_sent = 0;
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}
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// get current time, total delta angle (since startup) and update time from sensor
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const float curr_angle_rad = g2.wheel_encoder.get_delta_angle(wheel_encoder_last_index_sent);
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const uint32_t sensor_reading_ms = g2.wheel_encoder.get_last_reading_ms(wheel_encoder_last_index_sent);
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const uint32_t now_ms = AP_HAL::millis();
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// calculate angular change (in radians)
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#if HAL_NAVEKF3_AVAILABLE
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const float delta_angle = curr_angle_rad - wheel_encoder_last_angle_rad[wheel_encoder_last_index_sent];
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#endif
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wheel_encoder_last_angle_rad[wheel_encoder_last_index_sent] = curr_angle_rad;
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// calculate delta time using time between sensor readings or time since last send to ekf (whichever is shorter)
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uint32_t sensor_diff_ms = sensor_reading_ms - wheel_encoder_last_reading_ms[wheel_encoder_last_index_sent];
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if (sensor_diff_ms == 0 || sensor_diff_ms > 100) {
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// if no sensor update or time difference between sensor readings is too long use time since last send to ekf
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sensor_diff_ms = now_ms - wheel_encoder_last_reading_ms[wheel_encoder_last_index_sent];
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wheel_encoder_last_reading_ms[wheel_encoder_last_index_sent] = now_ms;
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} else {
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wheel_encoder_last_reading_ms[wheel_encoder_last_index_sent] = sensor_reading_ms;
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}
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#if HAL_NAVEKF3_AVAILABLE
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const float delta_time = sensor_diff_ms * 0.001f;
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/* delAng is the measured change in angular position from the previous measurement where a positive rotation is produced by forward motion of the vehicle (rad)
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* delTime is the time interval for the measurement of delAng (sec)
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* timeStamp_ms is the time when the rotation was last measured (msec)
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* posOffset is the XYZ body frame position of the wheel hub (m)
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*/
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ahrs.EKF3.writeWheelOdom(delta_angle,
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delta_time,
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wheel_encoder_last_reading_ms[wheel_encoder_last_index_sent],
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g2.wheel_encoder.get_pos_offset(wheel_encoder_last_index_sent),
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g2.wheel_encoder.get_wheel_radius(wheel_encoder_last_index_sent));
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#endif
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}
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// read the rangefinders
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void Rover::read_rangefinders(void)
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{
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rangefinder.update();
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Log_Write_Depth();
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}
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/*
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ask airspeed sensor for a new value, duplicated from plane
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*/
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void Rover::read_airspeed(void)
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{
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g2.airspeed.update(should_log(MASK_LOG_IMU));
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}
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/*
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update RPM sensors
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*/
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void Rover::rpm_update(void)
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{
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rpm_sensor.update();
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if (rpm_sensor.enabled(0) || rpm_sensor.enabled(1)) {
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logger.Write_RPM(rpm_sensor);
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}
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}
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