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gnss-sdr/src/utils/matlab/libs/plotVEMLTracking.m

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function plotVEMLTracking(channelList, trackResults, settings)
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% This function plots the tracking results for the given channel list.
%
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% plotTracking(channelList, trackResults, settings)
%
% Inputs:
% channelList - list of channels to be plotted.
% trackResults - tracking results from the tracking function.
% settings - receiver settings.
%--------------------------------------------------------------------------
% SoftGNSS v3.0
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%
% Copyright (C) Darius Plausinaitis
% Written by Darius Plausinaitis
%--------------------------------------------------------------------------
%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 2
%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, write to the Free Software
%Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301,
%USA.
%--------------------------------------------------------------------------
% Protection - if the list contains incorrect channel numbers
channelList = intersect(channelList, 1:settings.numberOfChannels);
%=== For all listed channels ==============================================
for channelNr = channelList
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%% Select (or create) and clear the figure ================================
% The number 200 is added just for more convenient handling of the open
% figure windows, when many figures are closed and reopened.
% Figures drawn or opened by the user, will not be "overwritten" by
% this function.
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figure(channelNr +200);
clf(channelNr +200);
set(channelNr +200, 'Name', ['Channel ', num2str(channelNr), ...
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' (PRN ', ...
num2str(trackResults(channelNr).PRN(end-1)), ...
') results']);
%% Draw axes ==============================================================
% Row 1
handles(1, 1) = subplot(3, 3, 1);
handles(1, 2) = subplot(3, 3, [2 3]);
% Row 2
handles(2, 1) = subplot(3, 3, 4);
handles(2, 2) = subplot(3, 3, [5 6]);
% Row 3
handles(3, 1) = subplot(3, 3, 7);
handles(3, 2) = subplot(3, 3, 8);
handles(3, 3) = subplot(3, 3, 9);
%% Plot all figures =======================================================
timeAxisInSeconds = (1:4:settings.msToProcess)/1000;
%----- Discrete-Time Scatter Plot ---------------------------------
plot(handles(1, 1), trackResults(channelNr).data_I,...
trackResults(channelNr).data_Q, ...
'.');
grid (handles(1, 1));
axis (handles(1, 1), 'equal');
title (handles(1, 1), 'Discrete-Time Scatter Plot');
xlabel(handles(1, 1), 'I prompt');
ylabel(handles(1, 1), 'Q prompt');
%----- Nav bits ---------------------------------------------------
t = (1:length(trackResults(channelNr).data_I));
plot (handles(1, 2), t, ...
trackResults(channelNr).data_I);
grid (handles(1, 2));
title (handles(1, 2), 'Bits of the navigation message');
xlabel(handles(1, 2), 'Time (s)');
axis (handles(1, 2), 'tight');
%----- PLL discriminator unfiltered--------------------------------
t = (1:length(trackResults(channelNr).pllDiscr));
plot (handles(2, 1), t, ...
trackResults(channelNr).pllDiscr, 'r');
grid (handles(2, 1));
axis (handles(2, 1), 'tight');
xlabel(handles(2, 1), 'Time (s)');
ylabel(handles(2, 1), 'Amplitude');
title (handles(2, 1), 'Raw PLL discriminator');
%----- Correlation ------------------------------------------------
t = (1:length(trackResults(channelNr).I_VE));
plot(handles(2, 2), t, ...
[sqrt(trackResults(channelNr).I_VE.^2 + ...
trackResults(channelNr).Q_VE.^2)', ...
sqrt(trackResults(channelNr).I_E.^2 + ...
trackResults(channelNr).Q_E.^2)', ...
sqrt(trackResults(channelNr).I_P.^2 + ...
trackResults(channelNr).Q_P.^2)', ...
sqrt(trackResults(channelNr).I_L.^2 + ...
trackResults(channelNr).Q_L.^2)', ...
sqrt(trackResults(channelNr).I_VL.^2 + ...
trackResults(channelNr).Q_VL.^2)'], ...
'-*');
grid (handles(2, 2));
title (handles(2, 2), 'Correlation results');
xlabel(handles(2, 2), 'Time (s)');
axis (handles(2, 2), 'tight');
hLegend = legend(handles(2, 2), '$\sqrt{I_{VE}^2 + Q_{VE}^2}$', ...
'$\sqrt{I_{E}^2 + Q_{E}^2}$', ...
'$\sqrt{I_{P}^2 + Q_{P}^2}$', ...
'$\sqrt{I_{L}^2 + Q_{L}^2}$', ...
'$\sqrt{I_{VL}^2 + Q_{VL}^2}$');
%set interpreter from tex to latex. This will draw \sqrt correctly
set(hLegend, 'Interpreter', 'Latex');
%----- PLL discriminator filtered----------------------------------
t = (1:length(trackResults(channelNr).pllDiscrFilt));
plot (handles(3, 1), t, ...
trackResults(channelNr).pllDiscrFilt, 'b');
grid (handles(3, 1));
axis (handles(3, 1), 'tight');
xlabel(handles(3, 1), 'Time (s)');
ylabel(handles(3, 1), 'Amplitude');
title (handles(3, 1), 'Filtered PLL discriminator');
%----- DLL discriminator unfiltered--------------------------------
t = (1:length(trackResults(channelNr).dllDiscr));
plot (handles(3, 2), t, ...
trackResults(channelNr).dllDiscr, 'r');
grid (handles(3, 2));
axis (handles(3, 2), 'tight');
xlabel(handles(3, 2), 'Time (s)');
ylabel(handles(3, 2), 'Amplitude');
title (handles(3, 2), 'Raw DLL discriminator');
%----- DLL discriminator filtered----------------------------------
t = (1:length(trackResults(channelNr).dllDiscrFilt));
plot (handles(3, 3), t, ...
trackResults(channelNr).dllDiscrFilt, 'b');
grid (handles(3, 3));
axis (handles(3, 3), 'tight');
xlabel(handles(3, 3), 'Time (s)');
ylabel(handles(3, 3), 'Amplitude');
title (handles(3, 3), 'Filtered DLL discriminator');
end % for channelNr = channelList