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🐛 Fix probe temp compensation maths (#23004)
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@ -24,6 +24,8 @@
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#if ENABLED(PROBE_TEMP_COMPENSATION)
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#if ENABLED(PROBE_TEMP_COMPENSATION)
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//#define DEBUG_PTC // Print extra debug output with 'M871'
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#include "probe_temp_comp.h"
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#include "probe_temp_comp.h"
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#include <math.h>
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#include <math.h>
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@ -79,9 +81,17 @@ void ProbeTempComp::print_offsets() {
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" temp: ", temp,
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" temp: ", temp,
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"C; Offset: ", i < 0 ? 0.0f : sensor_z_offsets[s][i], " um"
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"C; Offset: ", i < 0 ? 0.0f : sensor_z_offsets[s][i], " um"
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);
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);
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temp += cali_info[s].temp_res;
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temp += cali_info[s].temp_resolution;
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}
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}
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}
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}
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#if ENABLED(DEBUG_PTC)
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float meas[4] = { 0, 0, 0, 0 };
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compensate_measurement(TSI_PROBE, 27.5, meas[0]);
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compensate_measurement(TSI_PROBE, 32.5, meas[1]);
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compensate_measurement(TSI_PROBE, 77.5, meas[2]);
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compensate_measurement(TSI_PROBE, 82.5, meas[3]);
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SERIAL_ECHOLNPGM("DEBUG_PTC 27.5:", meas[0], " 32.5:", meas[1], " 77.5:", meas[2], " 82.5:", meas[3]);
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#endif
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}
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}
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void ProbeTempComp::prepare_new_calibration(const_float_t init_meas_z) {
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void ProbeTempComp::prepare_new_calibration(const_float_t init_meas_z) {
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@ -111,7 +121,7 @@ bool ProbeTempComp::finish_calibration(const TempSensorID tsi) {
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const uint8_t measurements = cali_info[tsi].measurements;
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const uint8_t measurements = cali_info[tsi].measurements;
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const celsius_t start_temp = cali_info[tsi].start_temp,
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const celsius_t start_temp = cali_info[tsi].start_temp,
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res_temp = cali_info[tsi].temp_res;
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res_temp = cali_info[tsi].temp_resolution;
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int16_t * const data = sensor_z_offsets[tsi];
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int16_t * const data = sensor_z_offsets[tsi];
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// Extrapolate
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// Extrapolate
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@ -156,46 +166,45 @@ bool ProbeTempComp::finish_calibration(const TempSensorID tsi) {
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}
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}
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void ProbeTempComp::compensate_measurement(const TempSensorID tsi, const celsius_t temp, float &meas_z) {
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void ProbeTempComp::compensate_measurement(const TempSensorID tsi, const celsius_t temp, float &meas_z) {
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if (WITHIN(temp, cali_info[tsi].start_temp, cali_info[tsi].end_temp))
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meas_z -= get_offset_for_temperature(tsi, temp);
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}
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float ProbeTempComp::get_offset_for_temperature(const TempSensorID tsi, const celsius_t temp) {
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const uint8_t measurements = cali_info[tsi].measurements;
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const uint8_t measurements = cali_info[tsi].measurements;
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const celsius_t start_temp = cali_info[tsi].start_temp,
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const celsius_t start_temp = cali_info[tsi].start_temp,
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res_temp = cali_info[tsi].temp_res;
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end_temp = cali_info[tsi].end_temp,
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res_temp = cali_info[tsi].temp_resolution;
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const int16_t * const data = sensor_z_offsets[tsi];
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const int16_t * const data = sensor_z_offsets[tsi];
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auto point = [&](uint8_t i) -> xy_float_t {
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// Given a data index, return { celsius, zoffset } in the form { x, y }
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return xy_float_t({ static_cast<float>(start_temp) + i * res_temp, static_cast<float>(data[i]) });
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auto tpoint = [&](uint8_t i) -> xy_float_t {
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return xy_float_t({ static_cast<float>(start_temp) + i * res_temp, i ? static_cast<float>(data[i - 1]) : 0.0f });
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};
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};
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// Interpolate Z based on a temperature being within a given range
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auto linear_interp = [](const_float_t x, xy_float_t p1, xy_float_t p2) {
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auto linear_interp = [](const_float_t x, xy_float_t p1, xy_float_t p2) {
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return (p2.y - p1.y) / (p2.x - p2.y) * (x - p1.x) + p1.y;
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// zoffs1 + zoffset_per_toffset * toffset
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return p1.y + (p2.y - p1.y) / (p2.x - p1.x) * (x - p1.x);
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};
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};
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// Linear interpolation
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uint8_t idx = static_cast<uint8_t>((temp - start_temp) / res_temp);
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// offset in µm
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// offset in µm
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float offset = 0.0f;
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float offset = 0.0f;
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#if !defined(PTC_LINEAR_EXTRAPOLATION) || PTC_LINEAR_EXTRAPOLATION <= 0
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#if PTC_LINEAR_EXTRAPOLATION
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if (idx < 0)
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if (temp < start_temp)
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offset = 0.0f;
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offset = linear_interp(temp, tpoint(0), tpoint(PTC_LINEAR_EXTRAPOLATION));
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else if (idx > measurements - 2)
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else if (temp >= end_temp)
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offset = static_cast<float>(data[measurements - 1]);
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offset = linear_interp(temp, tpoint(measurements - PTC_LINEAR_EXTRAPOLATION), tpoint(measurements));
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#else
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#else
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if (idx < 0)
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if (temp < start_temp)
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offset = linear_interp(temp, point(0), point(PTC_LINEAR_EXTRAPOLATION));
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offset = 0.0f;
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else if (idx > measurements - 2)
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else if (temp >= end_temp)
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offset = linear_interp(temp, point(measurements - PTC_LINEAR_EXTRAPOLATION - 1), point(measurements - 1));
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offset = static_cast<float>(data[measurements - 1]);
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#endif
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#endif
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else
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else {
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offset = linear_interp(temp, point(idx), point(idx + 1));
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// Linear interpolation
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const int8_t idx = static_cast<int8_t>((temp - start_temp) / res_temp);
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offset = linear_interp(temp, tpoint(idx), tpoint(idx + 1));
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}
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// return offset in mm
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// convert offset to mm and apply it
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return offset / 1000.0f;
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meas_z -= offset / 1000.0f;
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}
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}
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bool ProbeTempComp::linear_regression(const TempSensorID tsi, float &k, float &d) {
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bool ProbeTempComp::linear_regression(const TempSensorID tsi, float &k, float &d) {
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@ -204,7 +213,7 @@ bool ProbeTempComp::linear_regression(const TempSensorID tsi, float &k, float &d
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if (!WITHIN(calib_idx, 2, cali_info[tsi].measurements)) return false;
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if (!WITHIN(calib_idx, 2, cali_info[tsi].measurements)) return false;
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const celsius_t start_temp = cali_info[tsi].start_temp,
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const celsius_t start_temp = cali_info[tsi].start_temp,
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res_temp = cali_info[tsi].temp_res;
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res_temp = cali_info[tsi].temp_resolution;
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const int16_t * const data = sensor_z_offsets[tsi];
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const int16_t * const data = sensor_z_offsets[tsi];
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float sum_x = start_temp,
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float sum_x = start_temp,
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@ -33,9 +33,9 @@ enum TempSensorID : uint8_t {
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};
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};
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typedef struct {
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typedef struct {
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uint8_t measurements; // Max. number of measurements to be stored (35 - 80°C)
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uint8_t measurements; // Max. number of measurements to be stored (35 - 80°C)
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celsius_t temp_res, // Resolution in °C between measurements
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celsius_t temp_resolution, // Resolution in °C between measurements
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start_temp, // Base measurement; z-offset == 0
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start_temp, // Base measurement; z-offset == 0
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end_temp;
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end_temp;
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} temp_calib_t;
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} temp_calib_t;
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@ -135,8 +135,6 @@ class ProbeTempComp {
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*/
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*/
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static float init_measurement;
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static float init_measurement;
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static float get_offset_for_temperature(const TempSensorID tsi, const celsius_t temp);
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/**
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/**
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* Fit a linear function in measured temperature offsets
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* Fit a linear function in measured temperature offsets
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* to allow generating values of higher temperatures.
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* to allow generating values of higher temperatures.
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@ -121,7 +121,7 @@ void GcodeSuite::G76() {
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temp_comp.prepare_new_calibration(measured_z);
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temp_comp.prepare_new_calibration(measured_z);
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else
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else
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temp_comp.push_back_new_measurement(sid, measured_z);
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temp_comp.push_back_new_measurement(sid, measured_z);
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targ += cali_info_init[sid].temp_res;
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targ += cali_info_init[sid].temp_resolution;
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}
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}
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return measured_z;
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return measured_z;
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};
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};
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