function [delay,data_mean,data_std] = data_elberling2010(varargin)
%DATA_ELBERLING2010 ABR wave V data as functon of level and sweeping rate
% Usage: data = data_elberling2010(flag)
%
% Output parameters:
% delay : "x-axis" - sweeping rate delay between 710Hz and 5700Hz
% data_mean : Mean of data
% data_std : Standard deviation of data
%
% DATA_ELBERLING2010(flag) returns data points from the Elberling et
% al. (2010)
%
% The flag may be one of:
%
% 'noplot' Don't plot, only return data. This is the default.
%
% 'plot' Plot the data.
%
% 'fig4' Data from Fig. 4, Amplitude of wave V.
%
% 'fig5' Data from Fig. 5, Latency of wave V
%
% 'stim' Return the stimulus and the sampling frequency. XXX Describe
% the data. XXX change 'stim' to figure no., if applicable.
%
% Examples:
% ---------
%
% Figure 4 can be displayed using:
%
% data_elberling2010('fig4','plot');
%
% Figure 5 can be displayed using:
%
% data_elberling2010('fig5','plot');
%
% References:
% C. Elberling, J. Calloe, and M. Don. Evaluating auditory brainstem
% responses to different chirp stimuli at three levels of stimulation. J.
% Acoust. Soc. Am., 128(1):215-223, 2010.
%
%
% Url: http://amtoolbox.sourceforge.net/amt-0.9.9/doc/data/data_elberling2010.php
% Copyright (C) 2009-2015 Piotr Majdak and the AMT team.
% This file is part of Auditory Modeling Toolbox (AMT) version 0.9.9
%
% 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 3 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, see <http://www.gnu.org/licenses/>.
% TODO: explain Data in description;
% Define input flags
definput.flags.type={'missingflag','fig4','fig5','stim'};
definput.flags.plot = {'noplot','plot'};
[flags,keyvals] = ltfatarghelper({},definput,varargin);
if flags.do_missingflag
flagnames=[sprintf('%s, ',definput.flags.type{2:end-2}),...
sprintf('%s or %s',definput.flags.type{end-1},definput.flags.type{end})];
error('%s: You must specify one of the following flags: %s.',upper(mfilename),flagnames);
end
% Font size
ftsz=12;
%color
col=[0.7,0.7,0.7];
fs=30000;
delay = [0 1.86 2.56 3.32 4.14 5.04];
delay2 = [delay;delay;delay];
if flags.do_fig4
data_mean = [256 311 339 349 382 391; ...
368 560 613 645 631 581; ...
407 624 654 596 516 389]';
data_std = [61 86 86 72 83 91;...
92 135 119 79 79 100;...
91 162 118 118 96 120]';
if flags.do_plot
set(gca,'fontsize',ftsz);
figure;
hold on;
errorbar(delay2',data_mean,data_std/sqrt(20),'-', 'linewidth',1.5, ...
'color',col);
%,ylim([0 800])
axis([-1.2 5.5 0 800]);
xlabel('Change of delay [ms]');
ylabel('ABR amplitude [nv]')
text(-.7,data_mean(1,1), '20','fontsize',ftsz)
text(-.7,data_mean(1,2), '40','fontsize',ftsz)
text(-.7,data_mean(1,3), '60','fontsize',ftsz)
text(-.9,data_mean(1,3)+70, 'dB nHL','fontsize',ftsz)
text(-.2,50, 'Click','fontsize',ftsz)
text(delay(2),75, '1','fontsize',ftsz)
text(delay(3),75, '2','fontsize',ftsz)
text(delay(4),75, '3','fontsize',ftsz)
text(delay(5),75, '4','fontsize',ftsz)
text(delay(6),75, '5','fontsize',ftsz)
text(3,40, 'Chirps','fontsize',ftsz)
end;
end;
if flags.do_fig5
data_mean = [...
7.60 7.23 7.12 6.97 6.86 6.66; ...
6.59 6.15 5.96 5.76 5.48 4.98; ...
5.88 4.97 4.57 4.12 3.50 2.87]';
data_std = [...
0.79 0.36 0.32 0.34 0.36 0.36; ...
0.74 0.29 0.23 0.27 0.34 0.59; ...
0.25 0.28 0.35 0.51 0.51 0.38]';
if flags.do_plot
figure;
set(gca,'fontsize',ftsz);
axis([-1.2 6.5 0 10]);
xlabel('Change of delay [ms]');
ylabel('ABR latency [ms]')
text(-.7,5.88, '60','fontsize',ftsz,'color',col)
text(-.7,6.59, '40','fontsize',ftsz,'color',col)
text(-.7,7.6, '20','fontsize',ftsz,'color', col)
text(-.9,8.7, 'dB nHL','fontsize',ftsz,'color',col)
text(5.5,data_mean(6,1)/fs*1000-15, '20','fontsize',ftsz)
text(5.5,data_mean(6,2)/fs*1000-15, '40','fontsize',ftsz)
text(5.5,data_mean(6,3)/fs*1000-15, '60','fontsize',ftsz)
text(5.3,data_mean(6,1)/fs*1000-15+.6, 'dB nHL','fontsize',ftsz)
text(-.2,.5, 'Click','fontsize',ftsz)
text(delay(2),1, '1','fontsize',ftsz)
text(delay(3),1, '2','fontsize',ftsz)
text(delay(4),1, '3','fontsize',ftsz)
text(delay(5),1, '4','fontsize',ftsz)
text(delay(6),1, '5','fontsize',ftsz)
text(3,.5, 'Chirps','fontsize',ftsz)
box on;
hold on;
set(gca,'fontsize',ftsz);
errorbar(delay2',data_mean,data_std,'-',...
'linewidth',1.5,'color',col)
%,ylim([0 800])
end;
end;
if flags.do_stim
% delay is the first output parameter, use it to return the stimulus.
delay=amt_load('elberling2010','stim.mat');
% fs is stored in data_mean
data_mean=fs;
if flags.do_plot
amt_disp('XXX Plot is missing.');
end;
end;