sensors/vehicle_imu: refactor SensorCalibrationUpdate() to separate accel/gyro cal saving

This commit is contained in:
Daniel Agar 2022-01-06 14:43:20 -05:00
parent aec97e0020
commit c17a9e8003
2 changed files with 71 additions and 55 deletions

View File

@ -103,8 +103,10 @@ void VehicleIMU::Stop()
Deinit();
}
void VehicleIMU::ParametersUpdate(bool force)
bool VehicleIMU::ParametersUpdate(bool force)
{
bool updated = false;
// Check if parameters have changed
if (_parameter_update_sub.updated() || force) {
// clear update
@ -115,6 +117,8 @@ void VehicleIMU::ParametersUpdate(bool force)
updateParams();
updated = true;
const auto accel_calibration_count = _accel_calibration.calibration_count();
const auto gyro_calibration_count = _gyro_calibration.calibration_count();
_accel_calibration.ParametersUpdate();
@ -123,6 +127,7 @@ void VehicleIMU::ParametersUpdate(bool force)
if (accel_calibration_count != _accel_calibration.calibration_count()) {
// if calibration changed reset any existing learned calibration
_accel_cal_available = false;
_in_flight_calibration_check_timestamp_last = hrt_absolute_time();
for (auto &learned_cal : _accel_learned_calibration) {
learned_cal = {};
@ -132,6 +137,7 @@ void VehicleIMU::ParametersUpdate(bool force)
if (gyro_calibration_count != _gyro_calibration.calibration_count()) {
// if calibration changed reset any existing learned calibration
_gyro_cal_available = false;
_in_flight_calibration_check_timestamp_last = hrt_absolute_time();
for (auto &learned_cal : _gyro_learned_calibration) {
learned_cal = {};
@ -155,13 +161,15 @@ void VehicleIMU::ParametersUpdate(bool force)
_update_integrator_config = true;
}
}
return updated;
}
void VehicleIMU::Run()
{
const hrt_abstime now_us = hrt_absolute_time();
ParametersUpdate();
const bool parameters_updated = ParametersUpdate();
if (!_accel_calibration.enabled() || !_gyro_calibration.enabled()) {
_sensor_gyro_sub.unregisterCallback();
@ -251,9 +259,17 @@ void VehicleIMU::Run()
}
}
if (hrt_elapsed_time(&_in_flight_calibration_check_timestamp_last) > 1_s) {
if (!parameters_updated) {
if (_armed) {
if (now_us > _in_flight_calibration_check_timestamp_last + 1_s) {
SensorCalibrationUpdate();
_in_flight_calibration_check_timestamp_last = hrt_absolute_time();
_in_flight_calibration_check_timestamp_last = now_us;
}
} else {
SensorCalibrationSaveAccel();
SensorCalibrationSaveGyro();
}
}
}
@ -703,7 +719,6 @@ void VehicleIMU::PrintStatus()
void VehicleIMU::SensorCalibrationUpdate()
{
if (_armed) {
for (int i = 0; i < _estimator_sensor_bias_subs.size(); i++) {
estimator_sensor_bias_s estimator_sensor_bias;
@ -739,9 +754,10 @@ void VehicleIMU::SensorCalibrationUpdate()
}
}
// not armed and accel cal available
if (!_armed && _accel_cal_available) {
const Vector3f accel_cal_orig{_accel_calibration.offset()};
void VehicleIMU::SensorCalibrationSaveAccel()
{
if (_accel_cal_available) {
const Vector3f cal_orig{_accel_calibration.offset()};
bool initialised = false;
Vector3f offset_estimate{};
Vector3f bias_variance{};
@ -763,14 +779,17 @@ void VehicleIMU::SensorCalibrationUpdate()
bias_variance(axis_index) *= k2;
}
}
// reset
_accel_learned_calibration[i] = {};
}
}
if (initialised && (accel_cal_orig - offset_estimate).longerThan(0.05f)) {
if (initialised && (cal_orig - offset_estimate).longerThan(0.05f)) {
if (_accel_calibration.set_offset(offset_estimate)) {
PX4_INFO("accel %d (%" PRIu32 ") offset committed: [%.3f %.3f %.3f]->[%.3f %.3f %.3f])",
_instance, _accel_calibration.device_id(),
(double)accel_cal_orig(0), (double)accel_cal_orig(1), (double)accel_cal_orig(2),
PX4_INFO("%s %d (%" PRIu32 ") offset committed: [%.3f %.3f %.3f]->[%.3f %.3f %.3f])",
_accel_calibration.SensorString(), _instance, _accel_calibration.device_id(),
(double)cal_orig(0), (double)cal_orig(1), (double)cal_orig(2),
(double)offset_estimate(0), (double)offset_estimate(1), (double)offset_estimate(2));
if (_accel_calibration.ParametersSave()) {
@ -781,16 +800,13 @@ void VehicleIMU::SensorCalibrationUpdate()
// reset
_accel_cal_available = false;
for (auto &learned_cal : _accel_learned_calibration) {
learned_cal = {};
}
}
// not armed and gyro cal available
if (!_armed && _gyro_cal_available) {
const Vector3f gyro_cal_orig{_gyro_calibration.offset()};
void VehicleIMU::SensorCalibrationSaveGyro()
{
if (_gyro_cal_available) {
const Vector3f cal_orig{_gyro_calibration.offset()};
bool initialised = false;
Vector3f offset_estimate{};
Vector3f bias_variance{};
@ -812,14 +828,17 @@ void VehicleIMU::SensorCalibrationUpdate()
bias_variance(axis_index) *= k2;
}
}
// reset
_gyro_learned_calibration[i] = {};
}
}
if (initialised && (gyro_cal_orig - offset_estimate).longerThan(0.01f)) {
if (initialised && (cal_orig - offset_estimate).longerThan(0.01f)) {
if (_gyro_calibration.set_offset(offset_estimate)) {
PX4_INFO("gyro %d (%" PRIu32 ") offset committed: [%.3f %.3f %.3f]->[%.3f %.3f %.3f])",
_instance, _gyro_calibration.device_id(),
(double)gyro_cal_orig(0), (double)gyro_cal_orig(1), (double)gyro_cal_orig(2),
PX4_INFO("%s %d (%" PRIu32 ") offset committed: [%.3f %.3f %.3f]->[%.3f %.3f %.3f])",
_gyro_calibration.SensorString(), _instance, _gyro_calibration.device_id(),
(double)cal_orig(0), (double)cal_orig(1), (double)cal_orig(2),
(double)offset_estimate(0), (double)offset_estimate(1), (double)offset_estimate(2));
if (_gyro_calibration.ParametersSave()) {
@ -830,10 +849,6 @@ void VehicleIMU::SensorCalibrationUpdate()
// reset
_gyro_cal_available = false;
for (auto &learned_cal : _gyro_learned_calibration) {
learned_cal = {};
}
}
}

View File

@ -76,7 +76,7 @@ public:
void PrintStatus();
private:
void ParametersUpdate(bool force = false);
bool ParametersUpdate(bool force = false);
bool Publish();
void Run() override;
@ -88,6 +88,8 @@ private:
void UpdateGyroVibrationMetrics(const matrix::Vector3f &angular_velocity);
void SensorCalibrationUpdate();
void SensorCalibrationSaveAccel();
void SensorCalibrationSaveGyro();
uORB::PublicationMulti<vehicle_imu_s> _vehicle_imu_pub{ORB_ID(vehicle_imu)};
uORB::PublicationMulti<vehicle_imu_status_s> _vehicle_imu_status_pub{ORB_ID(vehicle_imu_status)};
@ -173,7 +175,6 @@ private:
InFlightCalibration _accel_learned_calibration[ORB_MULTI_MAX_INSTANCES] {};
InFlightCalibration _gyro_learned_calibration[ORB_MULTI_MAX_INSTANCES] {};
perf_counter_t _accel_generation_gap_perf{perf_alloc(PC_COUNT, MODULE_NAME": accel data gap")};
perf_counter_t _gyro_generation_gap_perf{perf_alloc(PC_COUNT, MODULE_NAME": gyro data gap")};