function exp_enzner2008(varargin)
%EXP_ENZNER2008 Creates figures like [Enzner2008, Fig. 2], [Enzner2009, Fig. 4]
% Usage: exp_enzner2008(flag)
%
% Required data: hrtf/enzner2008
%
% The following flags can be specified:
%
% 'fig2' Plot Fig. 2 from Enzner et al. (2008)
%
% 'fig4_enzner2009' Plot Fig. 4 from Enzner et al. (2009)
%
% Examples:
% ---------
%
% To display Figure 2 from the 2008 paper use :
%
% exp_enzner2008('fig2');
%
% To display Figure 4 from the 2009 paper use :
%
% exp_enzner2008('fig4_enzner2009');
%
% See also: enzner2008
%
% Url: http://amtoolbox.sourceforge.net/amt-0.9.9/doc/experiments/exp_enzner2008.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/>.
% Authors: Michael Weinert (Michael.Weinert@rub.de), Gerald Enzner (Gerald.Enzner@rub.de)
% Date: 21-01-2013
%addpath(fullfile(amt_basepath,'hrtf','continuous-azimuth HRIR'))
% enzner2008(1,1,varargin); % enzner2008(mu, delta_phi, varargin)
definput.flags.type = {'missingflag', 'fig2','fig4_enzner2009'};
[flags,kv] = 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;
rec_filename = 'example_1ch_white_noise_earsignals.wav';
ref_filename = 'example_1ch_white_noise_reference.wav';
P.adapt = 20000; % depends on the recording (overhead at the end and the beginnig)
P.sys_latency = 30;
P.mu=1;
P.delta_phi=1;
P.h_length = 256;
% % option 1.2 using loudspeaker driving signals, measurement stimulus: white noise
% h_length = 256;
% rec_filename = fullfile(amt_basepath,'signals','exp_enzner2008_example_1ch_white_noise_earsignals.wav');
% ref_filename = fullfile(amt_basepath,'signals','exp_enzner2008_example_1ch_white_noise_playback.wav');
% adapt = 20000; % depends on the recording (overhead at the end and the beginnig)
% sys_latency = -290;
% % % option 1.3 using reference signals, measurement stimulus: perfect sweeps
% h_length = 308;
% rec_filename = fullfile(amt_basepath,'signals','exp_enzner2008_example_1ch_PSWEEP308_earsignals.wav');
% ref_filename = fullfile(amt_basepath,'signals','exp_enzner2008_example_1ch_PSWEEP308_reference.wav');
% adapt = 20000; % depends on the recording (overhead at the end and the beginnig)
% sys_latency = 30;
% % option 1.4 using loudspeaker driving signals, measurement stimulus: perfect sweeps
% h_length = 308;
% rec_filename = fullfile(amt_basepath,'signals','exp_enzner2008_example_1ch_PSWEEP308_earsignals.wav');
% ref_filename = fullfile(amt_basepath,'signals','exp_enzner2008_example_1ch_PSWEEP308_playback.wav');
% adapt = 20000; % depends on the recording (overhead at the end and the beginnig)
% sys_latency = -290;
% check if signals exist
% if(exist(ref_filename,'file') ~= 2 || exist(rec_filename,'file') ~= 2)
% amt_disp('*')
% amt_disp(strcat('Missing file: ',ref_filename))
% amt_disp('Please download the required wav-files from Sourceforge.')
% error('Missing file');
% end
%% read signals
x = amt_load('enzner2008',ref_filename);
[y, fs] = amt_load('enzner2008',rec_filename);
%% Fig. 2 from Enzner (2008)
if flags.do_fig2
hrir_data = enzner2008(x,y,P);
h0=squeeze(hrir_data(:,1,271));
h0(:,2)=squeeze(hrir_data(:,2,271));
figure
subplot(2,1,1)
plot(20*log10(abs(h0(:,1)./max(max(abs(h0))))))
xlim([1 length(h0(:,1))])
ylim([-80 3])
ylabel('|h_1(\kappa,\theta_k)| [dB]')
title(['azimuth \theta_k = 270 deg, left ear'])
grid on
subplot(2,1,2)
plot(20*log10(abs(h0(:,2)./max(max(abs(h0))))))
xlim([1 length(h0(:,2))])
ylim([-80 3])
ylabel('|h_2(\kappa,\theta_k)| [dB]')
xlabel('impulse response lag \kappa')
title(['azimuth \theta_k = 270 deg, right ear'])
grid on
end
%% Fig. 4 from Enzner (2009)
if flags.do_fig4_enzner2009
[hrir_data, hrir_angles, errorsig] = enzner2008(x,y,P);
SNR_l = 10*log10(var(errorsig(P.adapt+1:(length(y)-P.adapt),1))/var(y(P.adapt+1:(length(y)-P.adapt),1))/P.h_length);
SNR_r = 10*log10(var(errorsig(P.adapt+1:(length(y)-P.adapt),2))/var(y(P.adapt+1:(length(y)-P.adapt),2))/P.h_length);
t = linspace(0, length(y)/fs, length(y));
figure
subplot(2,1,1)
txt1 = ['(\sigma_{e^l}^2/\sigma_{y^l}^2)/N = ',num2str(SNR_l),' dB'];
title({txt1});
hold on
p1 = plot(t, y(:,1),'b');
p2 = plot(t, errorsig(:,1),'m');
xlim([(P.adapt+1)/fs (length(y)-P.adapt)/fs]);
xlabel('time [s]');
ylim([-0.5 0.5]);
ylabel('amplitude');
legend([p1 p2],{'left ear recording y^l(k)' 'error signal e^l(k)'}, 'location', 'northwest')
grid on;
subplot(2,1,2)
txt2 = ['(\sigma_{e^r}^2/\sigma_{y^r}^2)/N = ',num2str(SNR_r),' dB'];
title({txt2});
hold on
p1 = plot(t,y(:,2),'b');
p2 = plot(t,errorsig(:,2),'m');
xlim([(P.adapt+1)/fs (length(y)-P.adapt)/fs]);
xlabel('time [s]');
ylim([-0.5 0.5]);
ylabel('amplitude');
legend([p1 p2],{'right ear recording y^r(k)' 'error signal e^r(k)'}, 'location', 'northeast')
grid on;
end;