How to "Calibrate" data acquired in the live data acquisition example project.
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I want the Liveaxes to display the modified sample data but am having problems understanding what math is required to change the recorded data to "calibrate it". I am using the function from the live data aqusition model from the Matlab examples pages and simulating a NI-6001 that is shifting between 10 to -10 V starting from 0. he example works up to when I try to modify the "Calibrateddate" variable.
The variable slopes is in the workspace and has the value 75.460709993827150. There is also an intercept variable I want to include but am unsure of how to add it also, I was wondering about using a loop to change the value of "Calibrateddata" but wasnt sure how to execute the idea.
Thanks.
function scansAvailable_Callback(app, src, ~)
%scansAvailable_Callback Executes on DAQ object ScansAvailable event
% This callback function gets executed periodically as more data is acquired.
% For a smooth live plot update, it stores the latest N seconds
% (specified time window) of acquired data and relative timestamps in FIFO
% buffers. A live plot is updated with the data in the FIFO buffer.
% If data logging option is selected in the UI, it also writes data to a
% binary file.
if ~isvalid(app)
return
end
[data,timestamps,triggertime] = read(src, src.ScansAvailableFcnCount, 'OutputFormat','Matrix');
%[data,timestamps,triggertime] = readwrite(src, src.ScansAvailableFcnCount, 'OutputFormat','Matrix');
Calibrateddata(:,1) = data(:,1);
slope = [slopes,1];
Calibrateddata(:,1) = mtimes(Calibrateddata,slope)
if app.LogRequested
% If Log data to file switch is on
latestdata = [timestamps, Calibrateddata]' ;
fwrite(app.TempFile, latestdata, 'double');
if timestamps(1)==0
app.TriggerTime = triggertime;
end
end
% Store continuous acquisition data in FIFO data buffers
buffersize = round(app.DAQ.Rate * app.TimewindowEditField.Value) + 1;
app.TimestampsFIFOBuffer = storeDataInFIFO(app, app.TimestampsFIFOBuffer, buffersize, timestamps);
app.DataFIFOBuffer = storeDataInFIFO(app, app.DataFIFOBuffer, buffersize, Calibrateddata(:,1));
% Update plot data
set(app.LivePlotLine, 'XData', app.TimestampsFIFOBuffer, 'YData', app.DataFIFOBuffer);
if numel(app.TimestampsFIFOBuffer) > 1
xlim(app.LiveAxes, [app.TimestampsFIFOBuffer(1), app.TimestampsFIFOBuffer(end)])
end
end
function Calibrateddata = storeDataInFIFO(~, Calibrateddata, buffersize, datablock)
%storeDataInFIFO Store continuous acquisition data in a FIFO data buffer
% Storing data in a finite-size FIFO buffer is used to plot the latest "N" seconds of acquired data for
% a smooth live plot update and without continuously increasing memory use.
% The most recently acquired data (datablock) is added to the buffer and if the amount of data in the
% buffer exceeds the specified buffer size (buffersize) the oldest data is discarded to cap the size of
% the data in the buffer to buffersize.
% input data is the existing data buffer (column vector Nx1).
% buffersize is the desired buffer size (maximum number of rows in data buffer) and can be changed.
% datablock is a new data block to be added to the buffer (column vector Kx1).
% output data is the updated data buffer (column vector Mx1).
% If the data size is greater than the buffer size, keep only the
% the latest "buffer size" worth of data
% This can occur if the buffer size is changed to a lower value during acquisition
if size(Calibrateddata,1) > buffersize
Calibrateddata = Calibrateddata(end-buffersize+1:end,:);
end
if size(datablock,1) < buffersize
% Data block size (number of rows) is smaller than the buffer size
if size(Calibrateddata,1) == buffersize
% Current data size is already equal to buffer size.
% Discard older data and append new data block,
% and keep data size equal to buffer size.
shiftPosition = size(datablock,1);
Calibrateddata = circshift(Calibrateddata,-shiftPosition);
Calibrateddata(end-shiftPosition+1:end,:) = datablock;
elseif (size(Calibrateddata,1) < buffersize) && (size(Calibrateddata,1)+size(datablock,1) > buffersize)
% Current data size is less than buffer size and appending the new
% data block results in a size greater than the buffer size.
Calibrateddata = [Calibrateddata; datablock];
shiftPosition = size(Calibrateddata,1) - buffersize;
Calibrateddata = circshift(Calibrateddata,-shiftPosition);
Calibrateddata(buffersize+1:end, :) = [];
else
% Current data size is less than buffer size and appending the new
% data block results in a size smaller than or equal to the buffer size.
% (if (size(data,1) < buffersize) && (size(data,1)+size(datablock,1) <= buffersize))
Calibrateddata = [Calibrateddata; datablock];
end
else
% Data block size (number of rows) is larger than or equal to buffer size
Calibrateddata = datablock(end-buffersize+1:end,:);
end
end
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