"content":" Notebook name: water_intake_profile_calculator.ipynb\nDescription This notebook will calculate the water intake profile vs time of a sample.\nHere are the steps (bold for user input/manipulation)\n select the normalized images images sorted by time (by default) User Interface pops up! region of interest selected (optional) change the sorting algorithm by name by date (optional) select a folder containing the original .dsc files (which contain the right time stamp) profile of counts vs vertical-pixel calculated (select integrated algorithm: mean/median/sum) water intake profile vs file index or vs time export profiles Start the notebook If you need help accessing this notebook, check the How To \u0026gt; Start the python notebooks tutorial.\nSelect your IPTS Need help using the IPTS selector?\n Select Images to Process Select the images you want to process using the File Selector. Once you click the Select button, the time stamp and the images will be automatically loaded. Wait for the progress bar to be done.\nNeed help using the File Selector?\n\nWater Intake Calculator UI Resizing widgets It\u0026rsquo;s possible to resize or move any of the plots.\nSorting Algorithm By default, all the images are sorted using their time stamps. But in some cases (old IPTS), the time stamp may be wrong. So It\u0026rsquo;s possible to:\n either sort them using their name and let you define the time interval between the runs define a folder that contains the .dsc files created by the MCP. Those files contain in all cases, the correct time stamp. Profile Algorithm You can select the profile algorithm to use (to integrate over the x-axis of the region selected) using the profile algorithms available\n add mean median The profile is calculated using the following method: * retrieve the region you defined in the top left image * using the profile algorithm you selected, will integrate over the x-axis of the ROI * display the profile vs the y-pixels.\npixel or dimension By default the water intake profile display the position of the \u0026ldquo;wave\u0026rdquo; as a pixel number vs the time. But it\u0026rsquo;s also possible to display this one using a real dimension (mm). To do so, just click the water intake y_axis -\u0026gt; distance check box and define the dimension of the pixel.\nExport Results You can export the following data\n profile (Export \u0026gt; Profiles \u0026hellip;) water intake (Export \u0026gt; Water Intake \u0026hellip;) Table (Export Table \u0026hellip;, on the right of the table) "
"content":" Notebook name: water_intake_profile_calculator.ipynb\nDescription This notebook will calculate the water intake profile vs time of a sample.\nHere are the steps (bold for user input/manipulation)\n select the normalized images images sorted by time (by default) User Interface pops up! region of interest selected (optional) change the sorting algorithm by name by date (optional) select a folder containing the original .dsc files (which contain the right time stamp) profile of counts vs vertical-pixel calculated (select integrated algorithm: mean/median/sum) water intake profile vs file index or vs time export profiles Start the notebook If you need help accessing this notebook, check the How To \u0026gt; Start the python notebooks tutorial.\nSelect your IPTS Need help using the IPTS selector?\n Select Images to Process Select the images you want to process using the File Selector. Once you click the Select button, the time stamp and the images will be automatically loaded. Wait for the progress bar to be done.\nNeed help using the File Selector?\n\nWater Intake Calculator UI Resizing widgets It\u0026rsquo;s possible to resize or move any of the plots.\nSorting Algorithm By default, all the images are sorted using their time stamps. But in some cases (old IPTS), the time stamp may be wrong. So It\u0026rsquo;s possible to:\n either sort them using their name and let you define the time interval between the runs define a folder that contains the .dsc files created by the MCP. Those files contain in all cases, the correct time stamp. Profile Algorithm You can select the profile algorithm to use (to integrate over the x-axis of the region selected) using the profile algorithms available\n add mean median The profile is calculated using the following method:\n retrieve the region you defined in the top left image using the profile algorithm you selected, will integrate over the x-axis of the ROI display the profile vs the y-pixels.pixel or dimension By default the water intake profile display the position of the \u0026ldquo;wave\u0026rdquo; as a pixel number vs the time. But it\u0026rsquo;s also possible to display this one using a real dimension (mm). To do so, just click the water intake y_axis -\u0026gt; distance check box and define the dimension of the pixel.\nWater Intake Algorithm If you wonder how the program calculates the pixel corresponding to the \u0026ldquo;front\u0026rdquo; of the profile signal. Check this PDF this document\nExport Results You can export the following data\n profile (Export \u0026gt; Profiles \u0026hellip;) water intake (Export \u0026gt; Water Intake \u0026hellip;) Table (Export Table \u0026hellip;, on the right of the table) "