Clsti: Difference between revisions
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====Inputs==== | ====Inputs==== | ||
To build a CLSTI model: | |||
* '''files''' = cell array of definition files, that can be: | * '''files''' = cell array of definition files, that can be: | ||
**.xlsx, .csv, or .txt file formats, with pure component name in first cell and filenames for pure component data in column 1 and corresponding temperatures in column 2, or | **.xlsx, .csv, or .txt file formats, with pure component name in first cell and filenames for pure component data in column 1 and corresponding temperatures in column 2, or | ||
**a cell array of DataSet Objects of pure component spectra at different temperatures with corresponding temperatures in the .axisscale{1,1} field. | **a cell array of DataSet Objects of pure component spectra at different temperatures with corresponding temperatures in the .axisscale{1,1} field. | ||
To apply a CLSTI model: | |||
*'''x''' = DSO of test data with temperatures in .axisscale{1,1} field | *'''x''' = DSO of test data with temperatures in .axisscale{1,1} field | ||
*'''temps''' = vector of temperatures (if not in x.axisscale{1,1}) | *'''temps''' = vector of temperatures (if not in x.axisscale{1,1}) | ||
Revision as of 13:55, 20 November 2023
Purpose
Temperature Interpolated Classical Least Squares models.
Synopsis
- model = clsti(files); %builds CLSTI model (calibration step)
- model = clsti(files,options); %builds CLSTI model (calibration step)
- pred = clsti(x,temps,model);%makes predictions with a new data and temperatures
- pred = clsti(x,temps,model,options);%makes predictions with a new data and temperatures
Description
CLSTI models will interpolate a test temperature from a give set of pure spectra at certain temperatures.
Inputs
To build a CLSTI model:
- files = cell array of definition files, that can be:
- .xlsx, .csv, or .txt file formats, with pure component name in first cell and filenames for pure component data in column 1 and corresponding temperatures in column 2, or
- a cell array of DataSet Objects of pure component spectra at different temperatures with corresponding temperatures in the .axisscale{1,1} field.
To apply a CLSTI model:
- x = DSO of test data with temperatures in .axisscale{1,1} field
- temps = vector of temperatures (if not in x.axisscale{1,1})
- model = CLSTI model to apply to x
Outputs
- model = standard model structure containing the CLSTI model (See Standard Model Structure).
- pred = prediction object.
Options
options = a structure array with the following fields:
- plots: [ {'none'} | 'final' ] governs plotting of results.
- display: [ 'off' | {'on'} ] governs level of display to command window.
- blockdetails: [ 'compact' | {'standard'} | 'all' ] level of detail (predictions, raw residuals, and calibration data) included in the model.
- ‘Standard’ = the predictions and raw residuals for the X-block as well as the X-block itself are not stored in the model to reduce its size in memory. Specifically, these fields in the model object are left empty: 'model.pred{1}', 'model.detail.res{1}', 'model.detail.data{1}'.
- ‘Compact’ = for this function, 'compact' is identical to 'standard'.
- 'All' = keep predictions, raw residuals for both X- & Y-blocks as well as the X- & Y-blocks themselves.
See Also
analysis, pcr, pls, preprocess, stepwise regrcls, testrobustness, EVRIModel_Objects, cls