parouby
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acoused
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parouby:dev-bjvincent-fix-UBSediFlow
parouby:dev-bjvincent
parouby:dev
parouby:fix-save-load
parouby:main
parouby:dev-parouby
parouby:dev-brahim
parouby:v2.2
parouby:v2.1
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compare: parouby:671f66058cd5506401af483b9c11f827f4d5dabf
Branches Tags
parouby:dev-bjvincent-fix-UBSediFlow
parouby:dev-bjvincent
parouby:dev
parouby:fix-save-load
parouby:main
parouby:dev-parouby
parouby:dev-brahim
parouby:v2.2
parouby:v2.1

26 Commits
761dc9008c ... 671f66058c

Author SHA1 Message Date
brahim 671f66058c the clear button is partially corrected 2025-03-13 17:11:10 +01:00
brahim 2d6c950dfe the delete button is corrected 2025-03-13 17:01:13 +01:00
brahim fe9ac2d65c Some correction : Profile and display option wasn't filled when the user download an acoustic file 2025-03-13 16:03:51 +01:00
brahim bdeca2b44e Correction when the user clicks on the clear button (clear profile tail) #36 2025-03-13 15:41:04 +01:00
brahim 06056d4865 Correction of average filter button (if no acoustic data) #33 2025-03-13 15:22:49 +01:00
brahim df68a862fc Correction of SNR filter button (if no acoustic data) #33 2025-03-13 15:19:30 +01:00
brahim 7a5f6d41f7 Correction of the profile tail button (if no acoustic data) #33 2025-03-13 15:07:31 +01:00
brahim eef048b197 Correction of the red cross button (if no acoustic data) #33 2025-03-13 14:19:44 +01:00
brahim 3c78777179 Correction of reload button (if no acoustic data) #33 2025-03-13 13:34:57 +01:00
brahim b84f58ca2c Resolving confilct 2025-03-13 12:23:30 +01:00
brahim 0df253d70f Resolve merge conflict by incorporating both suggestions 2025-03-13 12:05:27 +01:00
brahim 2715d225af Crash corrected if any calibration file is selected (Click Cancel) 2025-03-13 11:38:21 +01:00
Pierre-Antoine 571ac20d37 Acoustic data: refactoring plot and fix #17. 2025-03-12 16:36:53 +01:00
Pierre-Antoine 5f0fb9ad53 Acoustic data: Refactoring. 2025-03-12 15:51:44 +01:00
Pierre-Antoine cb94bb3c5d Acoustic data: Refactoring. 2025-03-12 15:02:02 +01:00
Pierre-Antoine 56a26c04b6 Acoustic data: Minor refactoring. 2025-03-12 11:45:03 +01:00
Pierre-Antoine de54303e0b README.md: Minor change. 2025-03-12 11:17:16 +01:00
Pierre-Antoine 43ed93584f Mainwindow: Set translate button to disabled. 2025-03-12 11:05:30 +01:00
Pierre-Antoine d1b311d1a3 Merge branch 'dev-parouby' into dev 2025-03-12 10:51:32 +01:00
Pierre-Antoine 607aed3f11 Mainwindow: 'save' call 'save_as' when study are never saved before. 2025-03-12 10:49:04 +01:00
Pierre-Antoine 487f5e9ac8 Sediment calibration: Code refactoring and fix #14. 2025-03-12 10:17:38 +01:00
Pierre-Antoine 8c7c4cafbc Inversion: Excel export: Fix depth column shape and filename extention. 2025-03-11 16:15:06 +01:00
Pierre-Antoine 8dd50f9373 Inversion: Fix #13. 2025-03-11 15:12:31 +01:00
Pierre-Antoine bcdae43d10 SQL: Remove unused logs. 2025-03-11 14:39:22 +01:00
Pierre-Antoine 0c141b8d24 SQL: Minor fix. 2025-03-11 14:28:49 +01:00
Pierre-Antoine ba0557294e Inversion: Refactoring 'save_result_in_excel_file' method. 2025-03-11 14:19:18 +01:00
7 changed files with 1073 additions and 796 deletions
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6
Model/create_table_for_save_as.py
View File

@ -389,10 +389,6 @@ class CreateTableForSaveAs:
)
)
logger.debug(f"stg.ind_bottom: {stg.ind_bottom[i]}")
logger.debug(np.array([stg.ind_bottom[i]]),
np.array(stg.ind_bottom[i]).shape)
# Commit the transaction after executing INSERT.
cnx.commit()
@ -446,7 +442,7 @@ class CreateTableForSaveAs:
cur.execute(self.create_SedimentsFile)
if stg.path_fine != "" and path_sand != "":
if stg.path_fine != "" and stg.path_sand != "":
cur.execute(
"""
INSERT into SedimentsFile(

48
README.md
View File

@ -11,17 +11,13 @@ It is divided in six tabs:
- Calibration : calibration parameter are computed
- Inversion : inversion method is calculated to provide fine and sand sediments fields
## Software documentation
### Installation
## Installation
Acoused is developped for Linux and Windows on Python version 3.8 or
greater. By default, Acoused is developped with Pypi package
dependencies, but is also possible to use Guix package manager to run
Acoused.
## Development documentation
### **TODO** Windows
### Linux
@ -49,27 +45,6 @@ script `guix.sh` to run the program.
guix shell sqlitebrowser -- ./guix.sh
```
## License
AcouSed
Copyright (C) 2024 - INRAE
This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version.
This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details.
You should have received a copy of the GNU General Public License along with this program. If not, see <https://www.gnu.org/licenses/>.
## Authors & Contacts
- Brahim MOUDJED 2022-2025 ([INRAE](https://www.inrae.fr/))
- Pierre-Antoine ROUBY 2025 ([TECC](https://parouby.fr))
If you have any questions or suggestions, please contact us to celine.berni@inrae.fr and/or jerome.lecoz@inrae.fr.
## Acknowledgment (Funding)
This study was conducted within the [Rhône Sediment Observatory](https://observatoire-sediments-rhone.fr/) (OSR), a multi-partner research program funded through the Plan Rhône by the European Regional Development Fund (ERDF), Agence de lEau RMC, CNR, EDF and three regional councils (Auvergne-Rhône-Alpes, PACA and Occitanie). It was also support by CNR.
## Support files & References
- [ ] [Acoustic inversion method diagram](https://forgemia.inra.fr/theophile.terraz/acoused/-/blob/main/Acoustic_Inversion_theory.pdf?ref_type=heads)
@ -80,3 +55,24 @@ This study was conducted within the [Rhône Sediment Observatory](https://observ
- [ ] [Vergne A., Le Coz J., Berni C., & Pierrefeu G. (2020), Water Resources Research, 56(2)](https://doi.org/10.1029/2019WR024877)
- [ ] [Vergne A., Berni C., Le Coz J., & Tencé F., (2021), Water Resources Research, 57(9)](https://doi.org/10.1029/2021WR029589)
## Authors & Contacts
- Brahim MOUDJED 2022-2025 ([INRAE](https://www.inrae.fr/))
- Pierre-Antoine ROUBY 2025 ([TECC](https://parouby.fr))
If you have any questions or suggestions, please contact us to celine.berni@inrae.fr and/or jerome.lecoz@inrae.fr.
## Acknowledgment (Funding)
This study was conducted within the [Rhône Sediment Observatory](https://observatoire-sediments-rhone.fr/) (OSR), a multi-partner research program funded through the Plan Rhône by the European Regional Development Fund (ERDF), Agence de lEau RMC, CNR, EDF and three regional councils (Auvergne-Rhône-Alpes, PACA and Occitanie). It was also support by CNR.
## License
AcouSed
Copyright (C) 2024-2025 - INRAE
This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version.
This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details.
You should have received a copy of the GNU General Public License along with this program. If not, see <https://www.gnu.org/licenses/>.

701
View/acoustic_data_tab.py
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File diff suppressed because it is too large Load Diff

151
View/acoustic_inversion_tab.py
View File

@ -20,16 +20,11 @@
# -*- coding: utf-8 -*-
import pandas as pd
from PyQt5.QtWidgets import (QWidget, QVBoxLayout, QHBoxLayout, QGroupBox, QComboBox,
QLabel, QPushButton, QSpacerItem,
QSlider, QLineEdit, QMessageBox, QFileDialog)
from PyQt5.QtCore import QCoreApplication, Qt
from PyQt5.QtGui import QIcon, QPixmap
import os
import numpy as np
import pandas as pd
from copy import deepcopy
import matplotlib.pyplot as plt
@ -37,9 +32,14 @@ from matplotlib.colors import LogNorm
from matplotlib.backends.backend_qt5agg import FigureCanvasQTAgg as FigureCanvas
from matplotlib.backends.backend_qt5agg import NavigationToolbar2QT as NavigationToolBar
from os import chdir
from PyQt5.QtWidgets import (
QWidget, QVBoxLayout, QHBoxLayout, QGroupBox, QComboBox,
QLabel, QPushButton, QSpacerItem, QSlider, QLineEdit,
QMessageBox, QFileDialog
)
from copy import deepcopy
from PyQt5.QtCore import QCoreApplication, Qt
from PyQt5.QtGui import QIcon, QPixmap
from View.checkable_combobox import CheckableComboBox
@ -1671,96 +1671,81 @@ class AcousticInversionTab(QWidget):
self.figure_measured_vs_inverted_sand.canvas.draw_idle()
def save_result_in_excel_file(self):
if self.combobox_acoustic_data_choice.count() > 0:
name = QFileDialog.getSaveFileName(
caption="Save As - Inversion results", directory="", filter="Excel Files (*.xlsx)",
options=QFileDialog.DontUseNativeDialog)
caption="Save As - Inversion results",
directory="",
filter="Excel Files (*.xlsx)",
options=QFileDialog.DontUseNativeDialog
)
if name[0]:
dirname = "/".join(name[0].split("/")[:-1]) + "/"
filename = name[0].split("/")[-1]
chdir(dirname)
dirname = os.path.dirname(name[0])
filename = os.path.basename(name[0])
os.chdir(dirname)
results = []
for k in range(self.combobox_acoustic_data_choice.count()):
if stg.time_cross_section[k].shape != (0,):
time_data = stg.time_cross_section
else:
time_data = stg.time
if stg.depth_cross_section[k].shape != (0,):
t = np.repeat(stg.time_cross_section[k][stg.frequency_for_inversion[1]],
stg.depth_cross_section[k].shape[1])
r = np.zeros((stg.depth_cross_section[k].shape[1] *stg.time_cross_section[k].shape[1],1))
for i in range(stg.time_cross_section[k].shape[1]):
for j in range(stg.depth_cross_section[k].shape[1]):
r[i * stg.depth_cross_section[k].shape[1] + j] = (
stg.depth_cross_section[k][int(stg.frequency_for_inversion[1]), j])
if stg.SSC_fine[k].shape == (0,):
stg.SSC_fine[k] = np.zeros(r.shape[0])
if stg.SSC_sand[k].shape == (0,):
stg.SSC_sand[k] = np.zeros(r.shape[0])
depth_data = stg.depth_cross_section
else:
depth_data = stg.depth
t = np.repeat(stg.time_cross_section[k][stg.frequency_for_inversion[1]], stg.depth[k].shape[1])
r = np.zeros((stg.depth[k].shape[1] * stg.time_cross_section[k].shape[1], 1))
for i in range(stg.time_cross_section[k].shape[1]):
for j in range(stg.depth[k].shape[1]):
r[i * stg.depth[k].shape[1] + j] = (
stg.depth[k][int(stg.frequency_for_inversion[1]), j])
t = np.repeat(
time_data[k][stg.frequency_for_inversion[1]],
depth_data[k].shape[1]
)
r = np.zeros(
depth_data[k].shape[1] * time_data[k].shape[1]
)
for i in range(time_data[k].shape[1]):
for j in range(depth_data[k].shape[1]):
r_id = i * depth_data[k].shape[1] + j
r[r_id] = (
depth_data[k][
int(stg.frequency_for_inversion[1]), j
]
)
if stg.SSC_fine[k].shape == (0,):
stg.SSC_fine[k] = np.zeros(r.shape[0])
if stg.SSC_sand[k].shape == (0,):
stg.SSC_sand[k] = np.zeros(r.shape[0])
else:
results.append(
pd.DataFrame(
{
'Time (sec)': list(t),
'Depth (m)': list(r),
'SSC_fine (g/L)': list(
stg.SSC_fine[k].reshape(t.shape[0])
),
'SSC_sand (g/L)': list(
stg.SSC_sand[k].reshape(t.shape[0])
),
}
)
)
if stg.depth_cross_section[k].shape != (0,):
if os.path.splitext(filename)[1] != ".xlsx":
filename += ".xlsx"
t = np.repeat(stg.time[k][stg.frequency_for_inversion[1]], stg.depth_cross_section[k].shape[1])
r = np.zeros((stg.depth_cross_section[k].shape[1] * stg.time[k].shape[1], 1))
for i in range(stg.time[k].shape[1]):
for j in range(stg.depth_cross_section[k].shape[1]):
r[i * stg.depth_cross_section[k].shape[1] + j] = (
stg.depth_cross_section[k][int(stg.frequency_for_inversion[1]), j])
if stg.SSC_fine[k].shape == (0,):
stg.SSC_fine[k] = np.zeros(r.shape[0])
if stg.SSC_sand[k].shape == (0,):
stg.SSC_sand[k] = np.zeros(r.shape[0])
else:
t = np.repeat(stg.time[k][stg.frequency_for_inversion[1]], stg.depth[k].shape[1])
r = np.zeros(stg.depth[k].shape[1] * stg.time[k].shape[1])
for i in range(stg.time[k].shape[1]):
for j in range(stg.depth[k].shape[1]):
r[i * stg.depth[k].shape[1] + j] = (
stg.depth[k][int(stg.frequency_for_inversion[1]), j])
if stg.SSC_fine[k].shape == (0,):
stg.SSC_fine[k] = np.zeros(r.shape[0])
if stg.SSC_sand[k].shape == (0,):
stg.SSC_sand[k] = np.zeros(r.shape[0])
exec("result_" + str(k) + "= pd.DataFrame({'Time (sec)': t," +
"'Depth (m)': r," +
"'SSC_fine (g/L)': stg.SSC_fine[" + str(k) + "].reshape(t.shape[0])," +
"'SSC_sand (g/L)': stg.SSC_sand[" + str(k) + "].reshape(t.shape[0])})")
with pd.ExcelWriter(dirname + filename + '.xlsx') as writer:
with pd.ExcelWriter(
os.path.join(dirname, filename)
) as writer:
for k in range(self.combobox_acoustic_data_choice.count()):
eval("result_" + str(k) + ".to_excel(writer, index=False, " +
"engine='xlsxwriter', na_rep='NA', " +
"sheet_name=stg.data_preprocessed[" + str(k) + "])")
results[k].to_excel(
writer, index=False,
engine='xlsxwriter', na_rep='NA',
sheet_name=stg.data_preprocessed[k],
)

5
View/mainwindow.py
View File

@ -147,12 +147,14 @@ class Ui_MainWindow(object):
icon6.addPixmap(QtGui.QPixmap("icons/en.png"), QtGui.QIcon.Normal, QtGui.QIcon.Off)
self.actionEnglish.setIcon(icon6)
self.actionEnglish.setObjectName("actionEnglish")
self.actionEnglish.setEnabled(False)
self.actionFrench = QtWidgets.QAction(self.mainwindow)
icon7 = QtGui.QIcon()
icon7.addPixmap(QtGui.QPixmap("icons/fr.png"), QtGui.QIcon.Normal, QtGui.QIcon.Off)
self.actionFrench.setIcon(icon7)
self.actionFrench.setObjectName("actionFrench")
self.actionFrench.setEnabled(False)
self.action_ABSCalibrationConstant = QtWidgets.QAction(self.mainwindow)
self.action_ABSCalibrationConstant.setText("ABS constant calibration kt")
@ -268,7 +270,10 @@ class Ui_MainWindow(object):
)
def save(self):
if stg.dirname_save_as:
UpdateTableForSave()
else:
self.save_as()
def open(self):
reader = ReadTableForOpen()

428
View/sediment_calibration_tab.py
View File

@ -1716,14 +1716,18 @@ class SedimentCalibrationTab(QWidget):
self.animaiton_groupbox_compute.start()
def import_calibration_file(self):
filename = QFileDialog.getOpenFileName(
self, "Open calibration",
[stg.path_calibration_file if stg.path_calibration_file else
stg.path_BS_raw_data[
-1] if self.combobox_acoustic_data_choice.count() > 0 else ""][0],
[
stg.path_calibration_file
if stg.path_calibration_file
else stg.path_BS_raw_data[-1]
if self.combobox_acoustic_data_choice.count() > 0
else ""
][0],
"Calibration file (*.xls, *.ods, *csv)",
options=QFileDialog.DontUseNativeDialog)
options=QFileDialog.DontUseNativeDialog
)
dir_name = os.path.dirname(filename[0])
name = os.path.basename(filename[0])
@ -1736,114 +1740,188 @@ class SedimentCalibrationTab(QWidget):
self.lineEdit_import_calibration.setToolTip(dir_name)
self.compute_depth_2D()
self.read_calibration_file_and_fill_parameter()
def update_label_freq1_for_calibration(self):
self.label_freq1.clear()
self.label_freq1.setText(str(self.combobox_freq1.currentText()))
self.label_freq1.setText(
str(self.combobox_freq1.currentText())
)
def update_label_freq2_for_calibration(self):
self.label_freq2.clear()
self.label_freq2.setText(self.combobox_freq2.currentText())
self.label_freq2.setText(
self.combobox_freq2.currentText()
)
def update_label_kt_value_for_calibration(self):
print("self.combobox_freq1.currentIndex() ",
self.combobox_freq1.currentIndex(),
self.combobox_freq1.currentText())
freq_1 = self.combobox_freq1.currentIndex()
freq_2 = self.combobox_freq2.currentIndex()
self.label_kt_freq1.clear()
print("self.combobox_freq1.currentIndex() ", self.combobox_freq1.currentIndex(), self.combobox_freq1.currentText())
if stg.kt_corrected[self.combobox_freq1.currentIndex()] != stg.kt_read[self.combobox_freq1.currentIndex()]:
self.label_kt_freq1.setText(str('%.4f' % stg.kt_corrected[self.combobox_freq1.currentIndex()]))
if stg.kt_corrected[freq_1] != stg.kt_read[freq_1]:
self.label_kt_freq1.setText(
str('%.4f' % stg.kt_corrected[freq_1])
)
else:
self.label_kt_freq1.setText(str('%.4f' % stg.kt_read[self.combobox_freq1.currentIndex()]))
self.label_kt_freq1.setText(
str('%.4f' % stg.kt_read[freq_1])
)
self.label_kt_freq2.clear()
if stg.kt_corrected[self.combobox_freq2.currentIndex()] != stg.kt_read[self.combobox_freq2.currentIndex()]:
self.label_kt_freq2.setText(str('%.4f' % stg.kt_corrected[self.combobox_freq2.currentIndex()]))
if stg.kt_corrected[freq_2] != stg.kt_read[freq_2]:
self.label_kt_freq2.setText(
str('%.4f' % stg.kt_corrected[freq_2])
)
else:
self.label_kt_freq2.setText(str('%.4f' % stg.kt_read[self.combobox_freq2.currentIndex()]))
self.label_kt_freq2.setText(
str('%.4f' % stg.kt_read[freq_2])
)
def read_calibration_file_and_fill_parameter(self):
if self.combobox_acoustic_data_choice.count() == 0:
msgBox = QMessageBox()
msgBox.setWindowTitle("Calibration import error")
msgBox.setIconPixmap(
QPixmap(self._path_icon("no_approved.png")).scaledToHeight(32, Qt.SmoothTransformation))
QPixmap(
self._path_icon("no_approved.png")
).scaledToHeight(32, Qt.SmoothTransformation)
)
msgBox.setText("Update data before importing calibration")
msgBox.setStandardButtons(QMessageBox.Ok)
msgBox.exec()
else:
elif stg.filename_calibration_file == "":
pass
else:
# --- Read calibration file ---
data = pd.read_csv(stg.path_calibration_file + "/" + stg.filename_calibration_file, header=0, index_col=0)
data = pd.read_csv(os.path.join(stg.path_calibration_file, stg.filename_calibration_file), header=0, index_col=0)
# --- Fill spinboxes of calibration parameter ---
self.label_temperature.clear()
self.label_temperature.setText("T = " + str(stg.temperature) + " °C")
self.label_temperature.setText(
"T = " + str(stg.temperature) + " °C"
)
self.label_freq1.clear()
self.label_freq1.setText(data.columns[0])
index_freq1 = np.where(np.asarray(stg.freq_text[self.combobox_acoustic_data_choice.currentIndex()]) ==
data.columns[0])[0][0]
data_id = self.combobox_acoustic_data_choice.currentIndex()
index_freq1 = np.where(
np.asarray(
stg.freq_text[data_id]
) == data.columns[0]
)[0][0]
stg.frequencies_for_calibration.clear()
stg.frequencies_for_calibration.append((stg.freq[self.combobox_acoustic_data_choice.currentIndex()][
index_freq1],
index_freq1))
stg.frequencies_for_calibration.append(
(
stg.freq[data_id][index_freq1],
index_freq1
)
)
self.label_freq2.clear()
self.label_freq2.setText(data.columns[1])
index_freq2 = np.where(np.asarray(stg.freq_text[self.combobox_acoustic_data_choice.currentIndex()]) ==
data.columns[1])[0][0]
stg.frequencies_for_calibration.append((stg.freq[self.combobox_acoustic_data_choice.currentIndex()][
index_freq2],
index_freq2))
index_freq2 = np.where(
np.asarray(
stg.freq_text[data_id]
) == data.columns[1]
)[0][0]
stg.frequencies_for_calibration.append(
(
stg.freq[data_id][index_freq2],
index_freq2
)
)
stg.frequency_for_inversion = tuple()
stg.frequency_for_inversion = (stg.freq[self.combobox_acoustic_data_choice.currentIndex()][index_freq2],
index_freq2)
stg.frequency_for_inversion = (
stg.freq[data_id][index_freq2],
index_freq2
)
self.lineEdit_ks_freq1.clear()
self.lineEdit_ks_freq1.setText(str("%.5f" % float(data.iloc[0][0])))
self.lineEdit_ks_freq1.setText(
str("%.5f" % float(data.iloc[0][0]))
)
self.lineEdit_ks_freq2.clear()
self.lineEdit_ks_freq2.setText(str("%.5f" % float(data.iloc[0][1])))
self.lineEdit_ks_freq2.setText(
str("%.5f" % float(data.iloc[0][1]))
)
stg.ks.clear()
stg.ks = [float(self.lineEdit_ks_freq1.text()), float(self.lineEdit_ks_freq2.text())]
stg.ks = [
float(self.lineEdit_ks_freq1.text()),
float(self.lineEdit_ks_freq2.text())
]
self.lineEdit_sv_freq1.clear()
self.lineEdit_sv_freq1.setText(str("%.5f" % float(data.iloc[1][0])))
self.lineEdit_sv_freq1.setText(
str("%.5f" % float(data.iloc[1][0]))
)
self.lineEdit_sv_freq2.clear()
self.lineEdit_sv_freq2.setText(str("%.5f" % float(data.iloc[1][1])))
self.lineEdit_sv_freq2.setText(
str("%.5f" % float(data.iloc[1][1]))
)
stg.sv.clear()
stg.sv = [float(self.lineEdit_sv_freq1.text()), float(self.lineEdit_sv_freq2.text())]
stg.sv = [
float(self.lineEdit_sv_freq1.text()),
float(self.lineEdit_sv_freq2.text())
]
self.lineEdit_X.clear()
self.lineEdit_X.setText(str("%.2f" % float(data.iloc[2][0])))
self.lineEdit_X.setText(
str("%.2f" % float(data.iloc[2][0]))
)
stg.X_exponent.clear()
stg.X_exponent.append(float(self.lineEdit_X.text()))
self.lineEdit_alphas_freq1.clear()
self.lineEdit_alphas_freq1.setText(str("%.5f" % float(data.iloc[3][0])))
self.lineEdit_alphas_freq1.setText(
str("%.5f" % float(data.iloc[3][0]))
)
self.lineEdit_alphas_freq2.clear()
self.lineEdit_alphas_freq2.setText(str("%.5f" % float(data.iloc[3][1])))
self.lineEdit_alphas_freq2.setText(
str("%.5f" % float(data.iloc[3][1]))
)
stg.alpha_s.clear()
stg.alpha_s = [float(self.lineEdit_alphas_freq1.text()), float(self.lineEdit_alphas_freq2.text())]
stg.alpha_s = [
float(self.lineEdit_alphas_freq1.text()),
float(self.lineEdit_alphas_freq2.text())
]
self.lineEdit_zeta_freq1.clear()
self.lineEdit_zeta_freq1.setText(str("%.5f" % float(data.iloc[4][0])))
self.lineEdit_zeta_freq1.setText(
str("%.5f" % float(data.iloc[4][0]))
)
self.lineEdit_zeta_freq2.clear()
self.lineEdit_zeta_freq2.setText(str("%.5f" % float(data.iloc[4][1])))
self.lineEdit_zeta_freq2.setText(
str("%.5f" % float(data.iloc[4][1]))
)
stg.zeta.clear()
stg.zeta = [float(self.lineEdit_zeta_freq1.text()), float(self.lineEdit_zeta_freq2.text())]
stg.zeta = [
float(self.lineEdit_zeta_freq1.text()),
float(self.lineEdit_zeta_freq2.text())
]
self.compute_kt2D_kt3D()
self.compute_J_cross_section()
@ -1931,8 +2009,8 @@ class SedimentCalibrationTab(QWidget):
self.compute_zeta()
def compute_ks(self):
data_id = self.combobox_acoustic_data_choice.currentIndex()
# --- Compute ks ---
psd_number_of_particles = (
self.inv_hc.compute_particle_size_distribution_in_number_of_particles(
num_sample=stg.sand_sample_target[0][1],
@ -1943,17 +2021,13 @@ class SedimentCalibrationTab(QWidget):
ks_freq1 = self.inv_hc.ks(
proba_num=psd_number_of_particles,
freq=stg.freq[self.combobox_acoustic_data_choice.currentIndex()][
self.combobox_freq1.currentIndex()
],
freq=stg.freq[data_id][self.combobox_freq1.currentIndex()],
C=stg.water_velocity
)
ks_freq2 = self.inv_hc.ks(
proba_num=psd_number_of_particles,
freq=stg.freq[self.combobox_acoustic_data_choice.currentIndex()][
self.combobox_freq2.currentIndex()
],
freq=stg.freq[data_id][self.combobox_freq2.currentIndex()],
C=stg.water_velocity
)
@ -1961,12 +2035,12 @@ class SedimentCalibrationTab(QWidget):
logger.debug(
"ks for frequency of "
+ f"{stg.freq[self.combobox_acoustic_data_choice.currentIndex()][self.combobox_freq1.currentIndex()]} : "
+ f"{stg.freq[data_id][self.combobox_freq1.currentIndex()]} : "
+ f"{ks_freq1} m/kg^0.5 \n"
)
logger.debug(
"ks for frequency of "
+ f"{stg.freq[self.combobox_acoustic_data_choice.currentIndex()][self.combobox_freq2.currentIndex()]} : " +
+ f"{stg.freq[data_id][self.combobox_freq2.currentIndex()]} : " +
f"{ks_freq2} m/kg^0.5"
)
@ -1977,13 +2051,21 @@ class SedimentCalibrationTab(QWidget):
self.lineEdit_ks_freq2.setText(str("%.5f" % ks_freq2))
def compute_sv(self):
data_id = self.combobox_acoustic_data_choice.currentIndex()
sv_freq1 = self.inv_hc.sv(ks=stg.ks[0], M_sand=stg.Ctot_sand[stg.sand_sample_target[0][1]])
sv_freq2 = self.inv_hc.sv(ks=stg.ks[1], M_sand=stg.Ctot_sand[stg.sand_sample_target[0][1]])
stg.sv = [sv_freq1, sv_freq2]
print(f"sv for frequency of {stg.freq[self.combobox_acoustic_data_choice.currentIndex()][self.combobox_freq1.currentIndex()]} : {sv_freq1:.8f} /m \n")
print(f"sv for frequency of {stg.freq[self.combobox_acoustic_data_choice.currentIndex()][self.combobox_freq2.currentIndex()]} : {sv_freq2:.8f} /m")
print(
f"sv for frequency of {stg.freq[data_id][self.combobox_freq1.currentIndex()]}"
+ f" : {sv_freq1:.8f} /m \n"
)
print(
f"sv for frequency of {stg.freq[data_id][self.combobox_freq2.currentIndex()]}"
+ f" : {sv_freq2:.8f} /m"
)
self.lineEdit_sv_freq1.clear()
self.lineEdit_sv_freq1.setText(str("%.5f" % sv_freq1))
@ -1992,9 +2074,13 @@ class SedimentCalibrationTab(QWidget):
self.lineEdit_sv_freq2.setText(str("%.5f" % sv_freq2))
def compute_X(self):
X_exponent = self.inv_hc.X_exponent(freq1=stg.freq[self.combobox_acoustic_data_choice.currentIndex()][self.combobox_freq1.currentIndex()],
freq2=stg.freq[self.combobox_acoustic_data_choice.currentIndex()][self.combobox_freq2.currentIndex()],
sv_freq1=stg.sv[0], sv_freq2=stg.sv[1])
data_id = self.combobox_acoustic_data_choice.currentIndex()
X_exponent = self.inv_hc.X_exponent(
freq1=stg.freq[data_id][self.combobox_freq1.currentIndex()],
freq2=stg.freq[data_id][self.combobox_freq2.currentIndex()],
sv_freq1=stg.sv[0], sv_freq2=stg.sv[1]
)
stg.X_exponent.clear()
stg.X_exponent.append(X_exponent)
@ -2037,190 +2123,90 @@ class SedimentCalibrationTab(QWidget):
)
def compute_J_cross_section(self):
lst_bs_data = [
stg.BS_stream_bed_pre_process_average,
stg.BS_stream_bed_pre_process_SNR,
stg.BS_stream_bed,
stg.BS_cross_section_pre_process_average,
stg.BS_cross_section_pre_process_SNR,
stg.BS_cross_section,
stg.BS_raw_data_pre_process_average,
stg.BS_raw_data_pre_process_SNR,
stg.BS_raw_data
]
for i in range(self.combobox_acoustic_data_choice.count()):
J_cross_section_freq1 = np.array([])
J_cross_section_freq2 = np.array([])
# --- Compute J ---
if stg.BS_stream_bed_pre_process_average[i].shape != (0,):
for data in lst_bs_data:
if data[i].shape != (0,):
bs_data = data
break
print(f"{stg.depth_2D[i].shape}")
print(f"{stg.depth_2D[i]}")
J_cross_section_freq1 = self.inv_hc.j_cross_section(
BS=stg.BS_stream_bed_pre_process_average[i][
stg.frequencies_for_calibration[0][1], :, :],
r2D=stg.depth_2D[i][stg.frequencies_for_calibration[0][1],
:, :],
kt=stg.kt3D[i][stg.frequencies_for_calibration[0][1], :, :])
BS = bs_data[i][
stg.frequencies_for_calibration[0][1], :, :
],
r2D = stg.depth_2D[i][
stg.frequencies_for_calibration[0][1], :, :
],
kt = stg.kt3D[i][
stg.frequencies_for_calibration[0][1], :, :
]
)
J_cross_section_freq2 = self.inv_hc.j_cross_section(
BS=stg.BS_stream_bed_pre_process_average[i][
stg.frequencies_for_calibration[1][1], :, :],
r2D=stg.depth_2D[i][stg.frequencies_for_calibration[1][1],
:, :],
kt=stg.kt3D[i][stg.frequencies_for_calibration[1][1], :, :])
elif stg.BS_stream_bed_pre_process_SNR[i].shape != (0,):
J_cross_section_freq1 = self.inv_hc.j_cross_section(
BS=stg.BS_stream_bed_pre_process_SNR[i][
stg.frequencies_for_calibration[0][1], :, :],
r2D=stg.depth_2D[i][stg.frequencies_for_calibration[0][1],
:, :],
kt=stg.kt3D[i][stg.frequencies_for_calibration[0][1], :, :])
J_cross_section_freq2 = self.inv_hc.j_cross_section(
BS=stg.BS_stream_bed_pre_process_SNR[i][
stg.frequencies_for_calibration[1][1], :, :],
r2D=stg.depth_2D[i][stg.frequencies_for_calibration[1][1],
:, :],
kt=stg.kt3D[i][stg.frequencies_for_calibration[1][1], :, :])
elif stg.BS_stream_bed[i].shape != (0,):
J_cross_section_freq1 = self.inv_hc.j_cross_section(
BS=stg.BS_stream_bed[i][stg.frequencies_for_calibration[0][1], :, :],
r2D=stg.depth_2D[i][stg.frequencies_for_calibration[0][1], :, :],
kt=stg.kt3D[i][stg.frequencies_for_calibration[0][1], :, :])
J_cross_section_freq2 = self.inv_hc.j_cross_section(
BS=stg.BS_stream_bed[i][
stg.frequencies_for_calibration[1][1], :, :],
r2D=stg.depth_2D[i][stg.frequencies_for_calibration[1][1], :, :],
kt=stg.kt3D[i][stg.frequencies_for_calibration[1][1], :, :])
elif stg.BS_cross_section_pre_process_average[i].shape != (0,):
J_cross_section_freq1 = self.inv_hc.j_cross_section(
BS=stg.BS_cross_section_pre_process_average[i][
stg.frequencies_for_calibration[0][1], :, :],
r2D=stg.depth_2D[i][stg.frequencies_for_calibration[0][1],
:, :],
kt=stg.kt3D[i][stg.frequencies_for_calibration[0][1], :, :])
J_cross_section_freq2 = self.inv_hc.j_cross_section(
BS=stg.BS_cross_section_pre_process_average[i][
stg.frequencies_for_calibration[1][1], :, :],
r2D=stg.depth_2D[i][stg.frequencies_for_calibration[1][1],
:, :],
kt=stg.kt3D[i][stg.frequencies_for_calibration[1][1], :, :])
elif stg.BS_cross_section_pre_process_SNR[i].shape != (0,):
J_cross_section_freq1 = self.inv_hc.j_cross_section(
BS=stg.BS_cross_section_pre_process_SNR[i][
stg.frequencies_for_calibration[0][1], :, :],
r2D=stg.depth_2D[i][stg.frequencies_for_calibration[0][1],
:, :],
kt=stg.kt3D[i][stg.frequencies_for_calibration[0][1], :, :])
J_cross_section_freq2 = self.inv_hc.j_cross_section(
BS=stg.BS_cross_section_pre_process_SNR[i][
stg.frequencies_for_calibration[1][1], :, :],
r2D=stg.depth_2D[i][stg.frequencies_for_calibration[1][1],
:, :],
kt=stg.kt3D[i][stg.frequencies_for_calibration[1][1], :, :])
elif stg.BS_cross_section[i].shape != (0,):
J_cross_section_freq1 = self.inv_hc.j_cross_section(
BS=stg.BS_cross_section[i][
stg.frequencies_for_calibration[0][1], :, :],
r2D=stg.depth_2D[i, :, :][stg.frequencies_for_calibration[0][1], :, :],
kt=stg.kt3D[i][stg.frequencies_for_calibration[0][1], :, :])
J_cross_section_freq2 = self.inv_hc.j_cross_section(
BS=stg.BS_cross_section[i][
stg.frequencies_for_calibration[1][1], :, :],
r2D=stg.depth_2D[i, :, :][stg.frequencies_for_calibration[1][1], :, :],
kt=stg.kt3D[i][stg.frequencies_for_calibration[1][1], :, :])
elif stg.BS_raw_data_pre_process_average[i].shape != (0,):
J_cross_section_freq1 = self.inv_hc.j_cross_section(
BS=stg.BS_raw_data_pre_process_average[i][
stg.frequencies_for_calibration[0][1], :, :],
r2D=stg.depth_2D[i][stg.frequencies_for_calibration[0][1], :, :],
kt=stg.kt3D[i][stg.frequencies_for_calibration[0][1], :, :])
J_cross_section_freq2 = self.inv_hc.j_cross_section(
BS=stg.BS_raw_data_pre_process_average[i][
stg.frequencies_for_calibration[1][1], :, :],
r2D=stg.depth_2D[i][stg.frequencies_for_calibration[1][1], :, :],
kt=stg.kt3D[i][stg.frequencies_for_calibration[1][1], :, :])
elif stg.BS_raw_data_pre_process_SNR[i].shape != (0,):
J_cross_section_freq1 = self.inv_hc.j_cross_section(
BS=stg.BS_raw_data_pre_process_SNR[i][
stg.frequencies_for_calibration[0][1], :, :],
r2D=stg.depth_2D[i][stg.frequencies_for_calibration[0][1], :, :],
kt=stg.kt3D[i][stg.frequencies_for_calibration[0][1], :, :])
J_cross_section_freq2 = self.inv_hc.j_cross_section(
BS=stg.BS_raw_data_pre_process_SNR[i][
stg.frequencies_for_calibration[1][1], :, :],
r2D=stg.depth_2D[i][stg.frequencies_for_calibration[1][1], :, :],
kt=stg.kt3D[i][stg.frequencies_for_calibration[1][1], :, :])
elif stg.BS_raw_data:
J_cross_section_freq1 = self.inv_hc.j_cross_section(
BS=stg.BS_raw_data[i][
stg.frequencies_for_calibration[0][1], :, :],
r2D=stg.depth_2D[i][stg.frequencies_for_calibration[0][1], :, :],
kt=stg.kt3D[i][stg.frequencies_for_calibration[0][1], :, :])
J_cross_section_freq2 = self.inv_hc.j_cross_section(
BS=stg.BS_raw_data[i][
stg.frequencies_for_calibration[1][1], :, :],
r2D=stg.depth_2D[i][stg.frequencies_for_calibration[1][1], :, :],
kt=stg.kt3D[i][stg.frequencies_for_calibration[1][1], :, :])
BS = bs_data[i][
stg.frequencies_for_calibration[1][1], :, :
],
r2D = stg.depth_2D[i][
stg.frequencies_for_calibration[1][1], :, :
],
kt = stg.kt3D[i][
stg.frequencies_for_calibration[1][1], :, :
]
)
stg.J_cross_section[i][0] = J_cross_section_freq1
stg.J_cross_section[i][1] = J_cross_section_freq2
def compute_alpha_s(self):
data_id = self.combobox_acoustic_data_choice.currentIndex()
freq_1 = self.combobox_freq1.currentIndex()
freq_2 = self.combobox_freq2.currentIndex()
# --- Compute alpha_s ---
if stg.depth_cross_section[self.combobox_acoustic_data_choice.currentIndex()].shape != (0,):
depth_data = stg.depth
if stg.depth_cross_section[data_id].shape != (0,):
depth_data = stg.depth_cross_section
alpha_s_freq1 = self.inv_hc.alpha_s(
sv=stg.sv[0],
j_cross_section=stg.J_cross_section[self.combobox_acoustic_data_choice.currentIndex()][0][
stg.sand_sample_target_indice[0][0], stg.sand_sample_target_indice[0][1]],
depth=stg.depth_cross_section[self.combobox_acoustic_data_choice.currentIndex()][
self.combobox_freq1.currentIndex(), stg.sand_sample_target_indice[0][0]],
alpha_w=stg.water_attenuation[self.combobox_acoustic_data_choice.currentIndex()][
self.combobox_freq1.currentIndex()])
j_cross_section=stg.J_cross_section[data_id][0][
stg.sand_sample_target_indice[0][0],
stg.sand_sample_target_indice[0][1]
],
depth=depth_data[data_id][
freq_1, stg.sand_sample_target_indice[0][0]
],
alpha_w=stg.water_attenuation[data_id][freq_1]
)
alpha_s_freq2 = self.inv_hc.alpha_s(
sv=stg.sv[1],
j_cross_section=stg.J_cross_section[self.combobox_acoustic_data_choice.currentIndex()][1][
stg.sand_sample_target_indice[1][0], stg.sand_sample_target_indice[1][1]],
depth=stg.depth_cross_section[self.combobox_acoustic_data_choice.currentIndex()][
self.combobox_freq2.currentIndex(), stg.sand_sample_target_indice[1][0]],
alpha_w=stg.water_attenuation[self.combobox_acoustic_data_choice.currentIndex()][
self.combobox_freq2.currentIndex()])
else:
alpha_s_freq1 = self.inv_hc.alpha_s(
sv=stg.sv[0],
j_cross_section=stg.J_cross_section[self.combobox_acoustic_data_choice.currentIndex()][0][
stg.sand_sample_target_indice[0][0], stg.sand_sample_target_indice[0][1]],
depth=stg.depth[self.combobox_acoustic_data_choice.currentIndex()][
self.combobox_freq1.currentIndex(), stg.sand_sample_target_indice[0][0]],
alpha_w=stg.water_attenuation[self.combobox_acoustic_data_choice.currentIndex()][
self.combobox_freq1.currentIndex()])
alpha_s_freq2 = self.inv_hc.alpha_s(
sv=stg.sv[1],
j_cross_section=stg.J_cross_section[self.combobox_acoustic_data_choice.currentIndex()][1][
stg.sand_sample_target_indice[1][0], stg.sand_sample_target_indice[1][1]],
depth=stg.depth[self.combobox_acoustic_data_choice.currentIndex()][
self.combobox_freq2.currentIndex(), stg.sand_sample_target_indice[1][0]],
alpha_w=stg.water_attenuation[self.combobox_acoustic_data_choice.currentIndex()][
self.combobox_freq2.currentIndex()])
j_cross_section=stg.J_cross_section[data_id][1][
stg.sand_sample_target_indice[1][0],
stg.sand_sample_target_indice[1][1]
],
depth=depth_data[data_id][
freq_2, stg.sand_sample_target_indice[1][0]
],
alpha_w=stg.water_attenuation[data_id][freq_2]
)
stg.alpha_s = [alpha_s_freq1, alpha_s_freq2]

76
View/signal_processing_tab.py
View File

@ -447,8 +447,8 @@ class SignalProcessingTab(QWidget):
# --------------------------------------------------------------------------------------------------------------
self.pushbutton_update.clicked.connect(self.update_SignalPreprocessingTab)
self.pushbutton_update.clicked.connect(self.compute_average_profile_tail)
self.pushbutton_update.clicked.connect(self.plot_averaged_profile_tail)
# self.pushbutton_update.clicked.connect(self.compute_average_profile_tail)
# self.pushbutton_update.clicked.connect(self.plot_averaged_profile_tail)
self.combobox_acoustic_data_choice.currentIndexChanged.connect(self.combobox_acoustic_data_choice_change_index)
@ -501,6 +501,16 @@ class SignalProcessingTab(QWidget):
- the user remove a file (in the list widget) in the first tab (Acoustic data), so that the combobox
of data to be processed is updated,
- the user change the limits of one or all the records in the first tab (Acoustic data) """
if len(stg.filename_BS_raw_data) == 0:
msgBox = QMessageBox()
msgBox.setWindowTitle("Compute noise from profile tail error")
msgBox.setIcon(QMessageBox.Warning)
msgBox.setText("Download acoustic data in previous tab before updating data")
msgBox.setStandardButtons(QMessageBox.Ok)
msgBox.exec()
else:
self.combobox_acoustic_data_choice.clear()
self.combobox_acoustic_data_choice.addItems(stg.filename_BS_raw_data)
@ -522,6 +532,9 @@ class SignalProcessingTab(QWidget):
self.combobox_acoustic_data_choice.currentIndexChanged.connect(self.combobox_acoustic_data_choice_change_index)
self.compute_average_profile_tail()
self.plot_averaged_profile_tail()
def activate_list_of_pre_processed_data(self):
for i in range(self.combobox_acoustic_data_choice.count()):
eval("self.lineEdit_list_pre_processed_data_" + str(i) + ".setDisabled(True)")
@ -654,6 +667,26 @@ class SignalProcessingTab(QWidget):
# --- Plot averaged signal ---
if len(stg.filename_BS_raw_data) == 0:
msgBox = QMessageBox()
msgBox.setWindowTitle("Compute noise from profile tail error")
msgBox.setIcon(QMessageBox.Warning)
msgBox.setText("Download acoustic data in previous tab before computing noise from profile tail")
msgBox.setStandardButtons(QMessageBox.Ok)
msgBox.exec()
elif self.combobox_acoustic_data_choice.count() == 0:
msgBox = QMessageBox()
msgBox.setWindowTitle("Compute noise from profile tail error")
msgBox.setIcon(QMessageBox.Warning)
msgBox.setText("Refresh acoustic data before computing noise from profile tail")
msgBox.setStandardButtons(QMessageBox.Ok)
msgBox.exec()
else:
if stg.BS_mean[self.combobox_acoustic_data_choice.currentIndex()].shape != (0,):
self.verticalLayout_groupbox_plot_profile_tail.removeWidget(self.canvas_profile_tail)
@ -722,13 +755,18 @@ class SignalProcessingTab(QWidget):
def clear_noise_data(self):
if len(stg.filename_BS_raw_data) == 0:
pass
else:
stg.BS_noise_raw_data[self.combobox_acoustic_data_choice.currentIndex()] = np.array([])
stg.BS_noise_averaged_data[self.combobox_acoustic_data_choice.currentIndex()] = np.array([])
stg.SNR_raw_data[self.combobox_acoustic_data_choice.currentIndex()] = np.array([])
stg.SNR_cross_section[self.combobox_acoustic_data_choice.currentIndex()] = np.array([])
stg.SNR_stream_bed[self.combobox_acoustic_data_choice.currentIndex()] = np.array([])
stg.time_noise[self.combobox_acoustic_data_choice.currentIndex()] = np.array([])
stg.noise_method[self.combobox_acoustic_data_choice.currentIndex()] = 0
stg.SNR_filter_value[self.combobox_acoustic_data_choice.currentIndex()] = 0
stg.BS_raw_data_pre_process_SNR[self.combobox_acoustic_data_choice.currentIndex()] = np.array([])
@ -739,7 +777,7 @@ class SignalProcessingTab(QWidget):
stg.BS_stream_bed_pre_process_SNR[self.combobox_acoustic_data_choice.currentIndex()] = np.array([])
stg.BS_stream_bed_pre_process_average[self.combobox_acoustic_data_choice.currentIndex()] = np.array([])
print("stg.noise_method[self.combobox_acoustic_data_choice.currentIndex()]", stg.noise_method[self.combobox_acoustic_data_choice.currentIndex()])
if stg.noise_method[self.combobox_acoustic_data_choice.currentIndex()] == 0:
self.lineEdit_noise_file.clear()
@ -1221,11 +1259,19 @@ class SignalProcessingTab(QWidget):
def remove_point_with_snr_filter(self):
if len(stg.BS_noise_raw_data) == 0:
if len(stg.filename_BS_raw_data) == 0:
msgBox = QMessageBox()
msgBox.setWindowTitle("Compute noise from profile tail error")
msgBox.setIcon(QMessageBox.Warning)
msgBox.setText("Download acoustic data in previous tab before applying SNR filter")
msgBox.setStandardButtons(QMessageBox.Ok)
msgBox.exec()
elif len(stg.BS_noise_raw_data) == 0:
msgBox = QMessageBox()
msgBox.setWindowTitle("SNR filter Error")
msgBox.setIcon(QMessageBox.Warning)
msgBox.setText("Load Noise data from acoustic data tab before using SNR filter")
msgBox.setText("Define noise data (file or profile tail) before using SNR filter")
msgBox.setStandardButtons(QMessageBox.Ok)
msgBox.exec()
@ -1504,6 +1550,24 @@ class SignalProcessingTab(QWidget):
def compute_averaged_BS_data(self):
if len(stg.filename_BS_raw_data) == 0:
msgBox = QMessageBox()
msgBox.setWindowTitle("Compute noise from profile tail error")
msgBox.setIcon(QMessageBox.Warning)
msgBox.setText("Download acoustic data in previous tab before applying SNR filter")
msgBox.setStandardButtons(QMessageBox.Ok)
msgBox.exec()
elif len(stg.BS_noise_raw_data) == 0:
msgBox = QMessageBox()
msgBox.setWindowTitle("SNR filter Error")
msgBox.setIcon(QMessageBox.Warning)
msgBox.setText("Define noise data (file or profile tail) before using SNR filter")
msgBox.setStandardButtons(QMessageBox.Ok)
msgBox.exec()
else:
kernel_avg = np.ones(2 * int(float(self.lineEdit_horizontal_average.text().replace(",", "."))) + 1)
print(kernel_avg)