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https://gitee.com/mirrors_PX4/PX4-Autopilot.git
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commander: enable accel cal to adjust thermal compensation parameters
This commit is contained in:
Paul Riseborough
Lorenz Meier
parent
bdd3b094a7
commit
fb774bef67
@ -275,12 +275,12 @@ int do_accel_calibration(orb_advert_t *mavlink_log_pub)
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get_rot_matrix(board_rotation_id, &board_rotation);
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math::Matrix<3, 3> board_rotation_t = board_rotation.transposed();
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for (unsigned i = 0; i < active_sensors; i++) {
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for (unsigned uorb_index = 0; uorb_index < active_sensors; uorb_index++) {
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/* handle individual sensors, one by one */
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math::Vector<3> accel_offs_vec(accel_offs[i]);
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math::Vector<3> accel_offs_vec(accel_offs[uorb_index]);
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math::Vector<3> accel_offs_rotated = board_rotation_t * accel_offs_vec;
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math::Matrix<3, 3> accel_T_mat(accel_T[i]);
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math::Matrix<3, 3> accel_T_mat(accel_T[uorb_index]);
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math::Matrix<3, 3> accel_T_rotated = board_rotation_t * accel_T_mat * board_rotation;
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accel_scale.x_offset = accel_offs_rotated(0);
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@ -295,38 +295,103 @@ int do_accel_calibration(orb_advert_t *mavlink_log_pub)
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failed = failed || (PX4_OK != param_set_no_notification(param_find("CAL_ACC_PRIME"), &(device_id_primary)));
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PX4_DEBUG("found offset %d: x: %.6f, y: %.6f, z: %.6f", i,
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PX4_DEBUG("found offset %d: x: %.6f, y: %.6f, z: %.6f", uorb_index,
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(double)accel_scale.x_offset,
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(double)accel_scale.y_offset,
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(double)accel_scale.z_offset);
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PX4_DEBUG("found scale %d: x: %.6f, y: %.6f, z: %.6f", i,
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PX4_DEBUG("found scale %d: x: %.6f, y: %.6f, z: %.6f", uorb_index,
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(double)accel_scale.x_scale,
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(double)accel_scale.y_scale,
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(double)accel_scale.z_scale);
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/* set parameters */
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(void)sprintf(str, "CAL_ACC%u_XOFF", i);
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failed |= (PX4_OK != param_set_no_notification(param_find(str), &(accel_scale.x_offset)));
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(void)sprintf(str, "CAL_ACC%u_YOFF", i);
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failed |= (PX4_OK != param_set_no_notification(param_find(str), &(accel_scale.y_offset)));
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(void)sprintf(str, "CAL_ACC%u_ZOFF", i);
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failed |= (PX4_OK != param_set_no_notification(param_find(str), &(accel_scale.z_offset)));
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(void)sprintf(str, "CAL_ACC%u_XSCALE", i);
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failed |= (PX4_OK != param_set_no_notification(param_find(str), &(accel_scale.x_scale)));
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(void)sprintf(str, "CAL_ACC%u_YSCALE", i);
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failed |= (PX4_OK != param_set_no_notification(param_find(str), &(accel_scale.y_scale)));
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(void)sprintf(str, "CAL_ACC%u_ZSCALE", i);
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failed |= (PX4_OK != param_set_no_notification(param_find(str), &(accel_scale.z_scale)));
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(void)sprintf(str, "CAL_ACC%u_ID", i);
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failed |= (PX4_OK != param_set_no_notification(param_find(str), &(device_id[i])));
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/* check if thermal compensation is enabled */
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int32_t tc_enabled_int;
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param_get(param_find("TC_A_ENABLE"), &(tc_enabled_int));
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if (tc_enabled_int == 1) {
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/* Get struct containing sensor thermal compensation data */
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struct sensor_correction_s sensor_correction; /**< sensor thermal corrections */
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memset(&sensor_correction, 0, sizeof(sensor_correction));
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int sensor_correction_sub = orb_subscribe(ORB_ID(sensor_correction));
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orb_copy(ORB_ID(sensor_correction), sensor_correction_sub, &sensor_correction);
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orb_unsubscribe(sensor_correction_sub);
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/* update the _X0_ terms to include the additional offset */
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/* update the _SCL_ terms to include the additonal scale factor */
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int32_t handle;
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float val;
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for (unsigned axis_index = 0; axis_index < 3; axis_index++) {
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handle = -1;
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val = 0.0f;
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(void)sprintf(str, "TC_A%u_X0_%u", sensor_correction.accel_mapping[uorb_index], axis_index);
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handle = param_find(str);
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param_get(handle, &(val));
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if (axis_index == 0) {
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val += accel_scale.x_offset;
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} else if (axis_index == 1) {
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val += accel_scale.y_offset;
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} else if (axis_index == 2) {
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val += accel_scale.z_offset;
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}
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failed |= (PX4_OK != param_set_no_notification(param_find(str), &(val)));
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}
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for (unsigned axis_index = 0; axis_index < 3; axis_index++) {
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handle = -1;
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val = 1.0f;
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(void)sprintf(str, "TC_A%u_SCL_%u", sensor_correction.accel_mapping[uorb_index], axis_index);
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handle = param_find(str);
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param_get(handle, &(val));
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if (axis_index == 0) {
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val *= accel_scale.x_scale;
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} else if (axis_index == 1) {
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val *= accel_scale.y_scale;
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} else if (axis_index == 2) {
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val *= accel_scale.z_scale;
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}
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failed |= (PX4_OK != param_set_no_notification(param_find(str), &(val)));
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}
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// Ensure the calibration values used the driver are at default settings
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float driver_offset = 0.0f;
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float driver_scale = 1.0f;
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(void)sprintf(str, "CAL_ACC%u_XOFF", uorb_index);
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failed |= (PX4_OK != param_set_no_notification(param_find(str), &(driver_offset)));
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(void)sprintf(str, "CAL_ACC%u_YOFF", uorb_index);
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failed |= (PX4_OK != param_set_no_notification(param_find(str), &(driver_offset)));
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(void)sprintf(str, "CAL_ACC%u_ZOFF", uorb_index);
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failed |= (PX4_OK != param_set_no_notification(param_find(str), &(driver_offset)));
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(void)sprintf(str, "CAL_ACC%u_XSCALE", uorb_index);
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failed |= (PX4_OK != param_set_no_notification(param_find(str), &(driver_scale)));
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(void)sprintf(str, "CAL_ACC%u_YSCALE", uorb_index);
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failed |= (PX4_OK != param_set_no_notification(param_find(str), &(driver_scale)));
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(void)sprintf(str, "CAL_ACC%u_ZSCALE", uorb_index);
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failed |= (PX4_OK != param_set_no_notification(param_find(str), &(driver_scale)));
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(void)sprintf(str, "CAL_ACC%u_ID", uorb_index);
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failed |= (PX4_OK != param_set_no_notification(param_find(str), &(device_id[uorb_index])));
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} else {
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(void)sprintf(str, "CAL_ACC%u_XOFF", uorb_index);
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failed |= (PX4_OK != param_set_no_notification(param_find(str), &(accel_scale.x_offset)));
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(void)sprintf(str, "CAL_ACC%u_YOFF", uorb_index);
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failed |= (PX4_OK != param_set_no_notification(param_find(str), &(accel_scale.y_offset)));
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(void)sprintf(str, "CAL_ACC%u_ZOFF", uorb_index);
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failed |= (PX4_OK != param_set_no_notification(param_find(str), &(accel_scale.z_offset)));
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(void)sprintf(str, "CAL_ACC%u_XSCALE", uorb_index);
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failed |= (PX4_OK != param_set_no_notification(param_find(str), &(accel_scale.x_scale)));
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(void)sprintf(str, "CAL_ACC%u_YSCALE", uorb_index);
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failed |= (PX4_OK != param_set_no_notification(param_find(str), &(accel_scale.y_scale)));
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(void)sprintf(str, "CAL_ACC%u_ZSCALE", uorb_index);
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failed |= (PX4_OK != param_set_no_notification(param_find(str), &(accel_scale.z_scale)));
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(void)sprintf(str, "CAL_ACC%u_ID", uorb_index);
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failed |= (PX4_OK != param_set_no_notification(param_find(str), &(device_id[uorb_index])));
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}
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if (failed) {
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calibration_log_critical(mavlink_log_pub, CAL_ERROR_SET_PARAMS_MSG, i);
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calibration_log_critical(mavlink_log_pub, CAL_ERROR_SET_PARAMS_MSG, uorb_index);
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return PX4_ERROR;
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}
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#if !defined(__PX4_QURT) && !defined(__PX4_POSIX_EAGLE) && !defined(__PX4_POSIX_EXCELSIOR) && !defined(__PX4_POSIX_RPI) && !defined(__PX4_POSIX_BEBOP)
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sprintf(str, "%s%u", ACCEL_BASE_DEVICE_PATH, i);
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sprintf(str, "%s%u", ACCEL_BASE_DEVICE_PATH, uorb_index);
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fd = px4_open(str, 0);
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if (fd < 0) {
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@ -338,7 +403,7 @@ int do_accel_calibration(orb_advert_t *mavlink_log_pub)
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}
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if (res != PX4_OK) {
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calibration_log_critical(mavlink_log_pub, CAL_ERROR_APPLY_CAL_MSG, i);
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calibration_log_critical(mavlink_log_pub, CAL_ERROR_APPLY_CAL_MSG, uorb_index);
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}
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#endif
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}
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@ -552,15 +617,15 @@ calibrate_return read_accelerometer_avg(int sensor_correction_sub, int (&subs)[m
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orb_copy(ORB_ID(sensor_accel), subs[s], &arp);
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// Apply thermal corrections
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if (s == 0) {
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if (sensor_correction.accel_mapping[s] == 0) {
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accel_sum[s][0] += (arp.x - sensor_correction.accel_offset_0[0]) * sensor_correction.accel_scale_0[0];
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accel_sum[s][1] += (arp.y - sensor_correction.accel_offset_0[1]) * sensor_correction.accel_scale_0[1];
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accel_sum[s][2] += (arp.z - sensor_correction.accel_offset_0[2]) * sensor_correction.accel_scale_0[2];
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} else if (s == 1) {
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} else if (sensor_correction.accel_mapping[s] == 1) {
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accel_sum[s][0] += (arp.x - sensor_correction.accel_offset_1[0]) * sensor_correction.accel_scale_1[0];
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accel_sum[s][1] += (arp.y - sensor_correction.accel_offset_1[1]) * sensor_correction.accel_scale_1[1];
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accel_sum[s][2] += (arp.z - sensor_correction.accel_offset_1[2]) * sensor_correction.accel_scale_1[2];
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} else if (s == 2) {
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} else if (sensor_correction.accel_mapping[s] == 2) {
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accel_sum[s][0] += (arp.x - sensor_correction.accel_offset_2[0]) * sensor_correction.accel_scale_2[0];
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accel_sum[s][1] += (arp.y - sensor_correction.accel_offset_2[1]) * sensor_correction.accel_scale_2[1];
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accel_sum[s][2] += (arp.z - sensor_correction.accel_offset_2[2]) * sensor_correction.accel_scale_2[2];
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