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function [colorsOut]= PlotPseudorangeRates(gnssMeas,prFileName,colors)
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% [colors] = PlotPseudorangeRates(gnssMeas,[prFileName],[colors])
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% plot the Pseudorange Rates obtained from ProcessGnssMeas
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%
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%gnssMeas.FctSeconds = Nx1 vector. Rx time tag of measurements.
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% .ClkDCount = Nx1 vector. Hw clock discontinuity count
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% .Svid = 1xM vector of all svIds found in gnssRaw.
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% ...
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% .DelPrM = NxM change in pr while clock continuous
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% .PrrMps = NxM pseudorange rate
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% ...
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%
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% Optional inputs: prFileName = string with file name
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% colors, Mx3 color matrix
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% if colors is not Mx3, it will be ignored
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%
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%Output: colors, color matrix, so we match colors each time we plot the same sv
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if nargin<2
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prFileName = '';
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end
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M = length(gnssMeas.Svid);
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N = length(gnssMeas.FctSeconds);
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if nargin<3 || any(size(colors)~=[M,3])
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colors = zeros(M,3); %initialize color matrix for storing colors
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bGotColors = false;
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else
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bGotColors = true;
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end
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gray = [.5 .5 .5];
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timeSeconds =gnssMeas.FctSeconds-gnssMeas.FctSeconds(1);%elapsed time in seconds
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%plot slope of pr and prr
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delPr = gnssMeas.DelPrM;
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ts = ('diff(raw pr)/diff(time) and reported prr');
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h12(1) = subplot(5,1,1:4); hold on
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deltaMeanM = zeros(1,M)+NaN; %store mean diff(pr) - mean prr
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for i=1:M
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%plot prr
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y = gnssMeas.PrrMps(:,i);
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iFi = find(isfinite(y));
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if ~isempty(iFi)
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h = plot(timeSeconds,y); set(h,'Color',gray);
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ti = timeSeconds(iFi(1));
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ht=text(ti,y(iFi(1)),int2str(gnssMeas.Svid(i)),'Color',gray);
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set(ht,'HorizontalAlignment','right')
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meanPrrM = mean(y(iFi));%store for analysing delta prr dpr
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%plot delta pr
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y = delPr(:,i);
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iFi = find(isfinite(y));
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if any(iFi)
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ti = timeSeconds(iFi(end));
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y = diff(y)./diff(timeSeconds);%slope of pr (m/s)
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h = plot(timeSeconds(2:end),y); set(h,'Marker','.','MarkerSize',4)
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if bGotColors
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set(h,'Color',colors(i,:));
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else
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colors(i,:) = get(h,'Color');
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end
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iFi = find(isfinite(y));
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if any(iFi)
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text(ti,y(iFi(end)),int2str(gnssMeas.Svid(i)),'Color',colors(i,:));
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end
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meanDprM = mean(y(iFi));%store for analysing delta prr dpr
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deltaMeanM(i) = meanPrrM - meanDprM;
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end
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end
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end
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title(ts),ylabel('(m/s)')
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ax = axis; %remember axis
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yLimMps = [ax(3)-200, ax(4)];%make an extra 200 m/s on axis, to add text
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set(gca,'YLim',yLimMps);
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ts = ' For Svids [';
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ds = sprintf('%.0f, ',gnssMeas.Svid);
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ht=text(ax(1),ax(3),[ts,ds(1:end-2),'],']);
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set(ht,'VerticalAlignment','top','Color',gray)
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ts = ' mean(prr) - mean (diff(pr)/diff(time)) = [';
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ds = sprintf('%.2f, ',deltaMeanM);
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ht=text(ax(1),ax(3)-100,[ts,ds(1:end-2),'] (m/s)']);
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set(ht,'VerticalAlignment','top','Color',gray)
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bClockDis = [0;diff(gnssMeas.ClkDCount)~=0];%binary, 1 <=> clock discontinuity
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%plot Clock discontinuity
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h12(2) = subplot(5,1,5);
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iCont = ~bClockDis;%index into where clock is continuous
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plot(timeSeconds(iCont),bClockDis(iCont),'.b');%blue dots for continuous
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hold on
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plot(timeSeconds(~iCont),bClockDis(~iCont),'.r');%red dots for discontinuous
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set(gca,'XLim',ax(1:2),'YLim',[-0.5 1.5]); grid on
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set(gca,'YTick',[0 1],'YTickLabel',{'continuous ','discontinuous'})
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set(gca,'YTickLabelRotation',45)
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title('HW Clock Discontinuity')
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xs = sprintf('time (seconds)\n%s',prFileName);
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xlabel(xs,'Interpreter','none')
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linkaxes(h12,'x')
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if nargout
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colorsOut = colors;
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end
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end %end of function PlotPseudorangeRates
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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% Copyright 2016 Google Inc.
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%
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% Licensed under the Apache License, Version 2.0 (the "License");
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% you may not use this file except in compliance with the License.
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% You may obtain a copy of the License at
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%
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% http://www.apache.org/licenses/LICENSE-2.0
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%
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% Unless required by applicable law or agreed to in writing, software
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% distributed under the License is distributed on an "AS IS" BASIS,
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% WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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% See the License for the specific language governing permissions and
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% limitations under the License.
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