function plot_joergensen2011(dSRT, varargin)
%PLOT_JOERGENSEN2011 Plot Fig. 5 or 6 of Joergensen and Dau (2011)
% Usage: plot_joergensen2011(dSRT,flag)
%
% PLOT_JOERGENSEN2011(dSRT) plots the output of JOERGENSEN2011 in the
% style of Fig. 5 or 6 of Joergensen and Dau (2011).
%
% The flag may be one of:
%
% 'fig5' : The measured change in SRT (open squares), averaged across 6
% normal-hearing listeners, as a function of the reverberation
% time, T30. The mean SRT in the reference condition was -3 dB.
% Model predictions are indicated by the filled squares. The
% linear correlation coefficient (q) and RMSE is indicated in
% the upper left corner.
% 'fig6' : DSRT (left ordinate) as a function of the over-subtraction
% factor a for 4 normal-hearing listeners (open squares) and
% sEPSM predictions (filled squares). The right ordinate (with
% a reversed scale) shows the corresponding sSTI values as filled
% gray circles. These values are, however, not converted to DSRT
% values since these would be outside the left ordinate scale.
%
% See also: joergensen2011, plot_joergensen2011
%
% Url: http://amtoolbox.org/amt-1.4.0/doc/plot/plot_joergensen2011.php
% #StatusDoc: Submitted
% #StatusCode: Submitted
% #Verification: Untrusted
% #Requirements: M-Signal M-Stats
% #Author: Peter L. Sondergaard (2014)
% #Author: Clara Hollomey (2020): Octave compatibility
% This file is licensed unter the GNU General Public License (GPL) either
% version 3 of the license, or any later version as published by the Free Software
% Foundation. Details of the GPLv3 can be found in the AMT directory "licences" and
% at <https://www.gnu.org/licenses/gpl-3.0.html>.
% You can redistribute this file and/or modify it under the terms of the GPLv3.
% This file is distributed without any warranty; without even the implied warranty
% of merchantability or fitness for a particular purpose.
% Define input flags
definput.flags.type = {'fig5','fig6'};
[flags,kv] = ltfatarghelper({}, definput,varargin);
%% Plot figure 5 from Joergensen and Dau (2011)
if flags.do_fig5
% Get measured dSRT
[dSRTdata,SRTdata_std ] = data_joergensen2011('fig5');
conditions = [0 0.4 0.7 1.3 2.3];
xmin = 0;
xmax = 6;
ymin = -1.5;
ymax = 12.5;
ytickmax = 12;
ytickmin = -1;
fnts = 14;
fig=figure;
sh = 400;
set(fig,'Position',[2*sh, 0.15*sh, 1.2*sh, 1*sh]);
mark_sty = {'s','d','v','d','>','o'};
mark_size = 10;%[6 6 6 7];
mark_col(1,:) = [1 1 1]*0.01;
mark_col(2,:) = [1 1 1]*0.4;
mark_col(3,:) = [1 1 1];
mark_col(4,:) = [1 1 1]*0.7;
mark_col(4,:) = [1 1 1]*0.7;
x = 1:5;
RMSE = sqrt(mean(abs(dSRT- dSRTdata).^2));
if isoctave
r_corr = corr(dSRT',dSRTdata');
disp('In the publication, the Pearson coefficient was used.');
disp('It is not implemented in Octave. Therefore, conventional correlation is used here.');
else
r_corr = corr(dSRT',dSRTdata', 'type', 'Pearson');
end
offset = 0.15;
h = plot(0,0,'color',[1 1 1]);
if isoctave
errorbar(x, dSRTdata, SRTdata_std); hold on
disp('Some errorbar functionality originally used are not yet implemented in Octave.');
disp('This is the basic version.');
else
errorbar(x,dSRTdata,SRTdata_std,...
'linestyle', 'none',...
'linewidth', 1,...
'color', mark_col(1,:),...
'marker', char(mark_sty(1)),...
'markerfacecolor', [1 1 1],...
'markersize', mark_size); hold on
end
idx_stim = 1;
plot(x-offset,dSRT,...
'linestyle', 'none',...
'linewidth', 1,...
'color', mark_col(idx_stim,:),...
'marker', char(mark_sty(idx_stim)),...
'markerfacecolor', mark_col(idx_stim,:),...
'markersize', mark_size);hold on
xlabel('Reverberation time T_{30} (s)','FontSize',fnts, 'FontName', 'Times');
ylabel('\DeltaSRT (dB)','FontSize',fnts, 'FontName', 'Times');
ylim([ymin ymax])
xlim([xmin xmax])
le = legend('Data','sEPSM');
set(le,'box','off','fontsize',fnts,'location','southeast');
text(.6,9,{[' \rho = ',num2str(r_corr,2)],['RMSE = ',num2str(RMSE,2), ' dB']},'fontsize',fnts,'FontName', 'Times');
set(gca,'xTick',1:5 ,'xTickLabel',conditions,'ytick',ytickmin:ytickmax,'FontSize',fnts,'yticklabel',ytickmin:ytickmax);
set(gca, 'FontName', 'Times');
set(gcf, 'Color', 'w');
end
%% Plot figure 6 from Joergensen and Dau (2011)
if flags.do_fig6
% Get measured dSRT
[dSRTdata,SRTdata_std ] = data_joergensen2011('fig6');
conditions = [0 0.5 1 2 4 8];
xmin = 0;
xmax = 7;
ymin = -4.5;
ymax = 4.5;
ytickmax = 4;
ytickmin = -4;
fig=figure;
sh = 400;
set(fig,'Position',[2*sh, 0.15*sh, 1.2*sh, 1*sh]);
line_sty = {'-','--','-.','-'};
mark_sty = {'s','d','v','x','>','o'};
mark_size = 10;%[6 6 6 7];
mark_col(1,:) = [1 1 1]*0.01;
mark_col(2,:) = [1 1 1]*0.4;
mark_col(3,:) = [1 1 1]*0.3;
mark_col(4,:) = [1 1 1]*0.5;
mark_col(5,:) = [1 1 1]*0.2;
fnts = 14;
x = 1:6;
offset = [0.21 -0.21 0.25 -0.25];
RMSE = sqrt(mean(abs(dSRT- dSRTdata).^2));
if isoctave
r_corr = corr(dSRT',dSRTdata');
disp('In the publication, the Pearson coefficient was used.');
disp('It is not implemented in Octave. Therefore, conventional correlation is used here.');
else
r_corr = corr(dSRT',dSRTdata', 'type', 'Pearson');
end
h = plot(0,0,'color',[1 1 1]);
if isoctave
errorbar(x, dSRTdata, SRTdata_std); hold on
disp('Some errorbar functionality originally used are not yet implemented in Octave.');
disp('This is the basic version.');
else
errorbar(x,dSRTdata,SRTdata_std,...
'linestyle', 'none',...
'linewidth', 1,...
'color', mark_col(1,:),...
'marker', char(mark_sty(1)),...
'markerfacecolor', [1 1 1],...
'markersize', mark_size); hold on
end
plot(x+offset(1),dSRT,...
'linestyle', 'none',...
'linewidth', 1,...
'color', mark_col(1,:),...
'marker', char(mark_sty(1)),...
'markerfacecolor', mark_col(1,:),...
'markersize', mark_size);hold on
hold off
axis([xmin xmax ymin ymax]);
set(gca,'xTick',x,'fontsize',fnts);
set(gca,'yTick',ytickmin:ytickmax);
set(gca,'xTickLabel',conditions);
set(gca,'yTickLabel',ytickmin:ytickmax);
xlabel('Over-subtraction factor \alpha','Fontsize',16)
ylabel('\DeltaSRT (dB)','Fontsize',fnts);
text(.6,3.5,{[' \rho = ',num2str(floor(r_corr*100)/100,2)],['RMSE = ',num2str(RMSE,2), ' dB']},'fontsize',fnts,'FontName', 'Times-Roman');
pos= get(gca,'Position');
set(gca,'box','on','position', [pos(1)*.8 pos(2) pos(3)*1 pos(4)*1 ])
le = legend('Data','sEPSM');
set(le,'box','off','fontsize',14,'Location','southwest');
set(gca, 'FontName', 'Times');
set(gcf, 'Color', 'w');
end