mirror of https://github.com/ArduPilot/ardupilot
231 lines
6.0 KiB
C++
231 lines
6.0 KiB
C++
/*
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per-motor compass compensation
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*/
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#include "AP_Compass.h"
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#include <GCS_MAVLink/GCS.h>
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extern const AP_HAL::HAL &hal;
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const AP_Param::GroupInfo Compass_PerMotor::var_info[] = {
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// @Param: _EN
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// @DisplayName: per-motor compass correction enable
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// @Description: This enables per-motor compass corrections
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// @Values: 0:Disabled,1:Enabled
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// @User: Advanced
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AP_GROUPINFO_FLAGS("_EN", 1, Compass_PerMotor, enable, 0, AP_PARAM_FLAG_ENABLE),
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// @Param: _EXP
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// @DisplayName: per-motor exponential correction
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// @Description: This is the exponential correction for the power output of the motor for per-motor compass correction
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// @Range: 0 2
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// @Increment: 0.01
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// @User: Advanced
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AP_GROUPINFO("_EXP", 2, Compass_PerMotor, expo, 0.65),
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// @Param: 1_X
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// @DisplayName: Compass per-motor1 X
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// @Description: Compensation for X axis of motor1
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// @User: Advanced
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// @Param: 1_Y
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// @DisplayName: Compass per-motor1 Y
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// @Description: Compensation for Y axis of motor1
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// @User: Advanced
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// @Param: 1_Z
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// @DisplayName: Compass per-motor1 Z
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// @Description: Compensation for Z axis of motor1
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// @User: Advanced
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AP_GROUPINFO("1", 3, Compass_PerMotor, compensation[0], 0),
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// @Param: 2_X
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// @DisplayName: Compass per-motor2 X
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// @Description: Compensation for X axis of motor2
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// @User: Advanced
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// @Param: 2_Y
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// @DisplayName: Compass per-motor2 Y
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// @Description: Compensation for Y axis of motor2
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// @User: Advanced
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// @Param: 2_Z
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// @DisplayName: Compass per-motor2 Z
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// @Description: Compensation for Z axis of motor2
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// @User: Advanced
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AP_GROUPINFO("2", 4, Compass_PerMotor, compensation[1], 0),
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// @Param: 3_X
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// @DisplayName: Compass per-motor3 X
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// @Description: Compensation for X axis of motor3
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// @User: Advanced
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// @Param: 3_Y
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// @DisplayName: Compass per-motor3 Y
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// @Description: Compensation for Y axis of motor3
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// @User: Advanced
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// @Param: 3_Z
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// @DisplayName: Compass per-motor3 Z
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// @Description: Compensation for Z axis of motor3
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// @User: Advanced
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AP_GROUPINFO("3", 5, Compass_PerMotor, compensation[2], 0),
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// @Param: 4_X
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// @DisplayName: Compass per-motor4 X
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// @Description: Compensation for X axis of motor4
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// @User: Advanced
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// @Param: 4_Y
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// @DisplayName: Compass per-motor4 Y
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// @Description: Compensation for Y axis of motor4
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// @User: Advanced
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// @Param: 4_Z
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// @DisplayName: Compass per-motor4 Z
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// @Description: Compensation for Z axis of motor4
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// @User: Advanced
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AP_GROUPINFO("4", 6, Compass_PerMotor, compensation[3], 0),
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AP_GROUPEND
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};
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// constructor
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Compass_PerMotor::Compass_PerMotor(Compass &_compass) :
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compass(_compass)
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{
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AP_Param::setup_object_defaults(this, var_info);
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}
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// return current scaled motor output
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float Compass_PerMotor::scaled_output(uint8_t motor)
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{
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if (!have_motor_map) {
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if (SRV_Channels::find_channel(SRV_Channel::k_motor1, motor_map[0]) &&
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SRV_Channels::find_channel(SRV_Channel::k_motor2, motor_map[1]) &&
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SRV_Channels::find_channel(SRV_Channel::k_motor3, motor_map[2]) &&
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SRV_Channels::find_channel(SRV_Channel::k_motor4, motor_map[3])) {
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have_motor_map = true;
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}
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}
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if (!have_motor_map) {
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return 0;
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}
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// this currently assumes first 4 channels.
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uint16_t pwm = hal.rcout->read_last_sent(motor_map[motor]);
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// get 0 to 1 motor demand
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float output = (hal.rcout->scale_esc_to_unity(pwm)+1) * 0.5;
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if (output <= 0) {
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return 0;
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}
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// scale for voltage
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output *= voltage;
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// apply expo correction
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output = powf(output, expo);
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return output;
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}
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// per-motor calibration update
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void Compass_PerMotor::calibration_start(void)
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{
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for (uint8_t i=0; i<4; i++) {
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field_sum[i].zero();
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output_sum[i] = 0;
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count[i] = 0;
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start_ms[i] = 0;
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}
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// we need to ensure we get current data by throwing away several
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// samples. The offsets may have just changed from an offset
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// calibration
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for (uint8_t i=0; i<4; i++) {
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compass.read();
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hal.scheduler->delay(50);
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}
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base_field = compass.get_field(0);
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running = true;
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}
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// per-motor calibration update
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void Compass_PerMotor::calibration_update(void)
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{
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uint32_t now = AP_HAL::millis();
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// accumulate per-motor sums
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for (uint8_t i=0; i<4; i++) {
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float output = scaled_output(i);
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if (output <= 0) {
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// motor is off
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start_ms[i] = 0;
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continue;
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}
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if (start_ms[i] == 0) {
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start_ms[i] = now;
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}
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if (now - start_ms[i] < 500) {
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// motor must run for 0.5s to settle
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continue;
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}
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// accumulate a sample
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field_sum[i] += compass.get_field(0);
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output_sum[i] += output;
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count[i]++;
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}
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}
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// calculate per-motor calibration values
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void Compass_PerMotor::calibration_end(void)
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{
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for (uint8_t i=0; i<4; i++) {
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if (count[i] == 0) {
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continue;
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}
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// calculate effective output
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float output = output_sum[i] / count[i];
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// calculate amount that field changed from base field
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Vector3f field_change = base_field - (field_sum[i] / count[i]);
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if (output <= 0) {
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continue;
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}
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Vector3f c = field_change / output;
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compensation[i].set_and_save(c);
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}
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// enable per-motor compensation
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enable.set_and_save(1);
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running = false;
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}
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/*
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calculate total offset for per-motor compensation
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*/
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void Compass_PerMotor::compensate(Vector3f &offset)
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{
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offset.zero();
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if (running) {
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// don't compensate while calibrating
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return;
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}
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for (uint8_t i=0; i<4; i++) {
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float output = scaled_output(i);
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const Vector3f &c = compensation[i].get();
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offset += c * output;
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}
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}
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