function data = data_baumgartner2014(varargin)
%DATA_BAUMGARTNER2014 Data from Baumgartner et al. (2014)
% Usage: data = data_baumgartner2014(flag)
%
% DATA_BAUMGARTNER2014(flag) returns data from Baumgartner et al. (2014)
% describing a model for sound localization in sagittal planes (SPs)
% on the basis of listener-specific directional transfer functions (DTFs).
%
% The flag may be one of:
%
% 'pool' DTFs and calibration data of the pool. This is the
% default.
%
% 'baseline' Same as 'pool', but also with experimental data for
% baseline condition.
%
% The fields in the output contains the following information
%
% .id listener ID
%
% .S listener-specific sensitivity parameter
%
% .Obj DTF data in SOFA Format
%
% .pe_exp experimental local polar RMS error
%
% .qe_exp experimental quadrant error rate
%
% .target experimental target angles
%
% .response experimental response angles
%
% .itemlist experimental item list. Columns denote:
% 1:4 ... azi_target,ele_target,azi_response,ele_response
% 5:8 ... lat_target,pol_target,lat_response,pol_response
% 9 ... F/B-Confusion resolved pol_response
%
% Requirements:
% -------------
%
% 1) SOFA API from http://sourceforge.net/projects/sofacoustics for Matlab (in e.g. thirdparty/SOFA)
%
% 2) Data in hrtf/baumgartner2014
%
% Examples:
% ---------
%
% To get all listener-specific data of the pool, use:
%
% data_baumgartner2014('pool');
%
% To get all listener-specific data of the pool including experimental
% baseline data, use:
%
% data_baumgartner2014('baseline');
%
% See also: baumgartner2014, exp_baumgartner2014
%
% Url: http://amtoolbox.sourceforge.net/amt-0.9.7/doc/humandata/data_baumgartner2014.php
% Copyright (C) 2009-2014 Peter L. Søndergaard and Piotr Majdak.
% This file is part of AMToolbox version 0.9.7
%
% 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/>.
% AUTHOR : Robert Baumgartner
%% ------ Check input options --------------------------------------------
% Define input flags
definput.flags.type = {'pool','baseline'};
definput.flags.HRTFformat = {'sofa','ari'};
definput.import={'baumgartner2014','amtcache'};
% Parse input options
[flags,kv] = ltfatarghelper({'mrsmsp','gamma'},definput,varargin);
%% Listener pool (listener-specific SP-DTFs)
if flags.do_pool || flags.do_baseline
listeners = {'NH12';'NH15';'NH21';'NH22';'NH33';'NH39';'NH41';'NH42';'NH43';...
'NH46';'NH53';'NH55';'NH58';'NH62';'NH64';'NH68';'NH71';'NH72';...
'NH14';'NH16';'NH17';'NH18';'NH57'};
data=cell2struct(listeners,'id',2);
for ii = 1:length(data)
data(ii).S = 0.5; % default sensitivity
data(ii).Obj = SOFAload(...
fullfile(SOFAdbPath,'baumgartner2014',...
['ARI_' data(ii).id '_hrtf_M_dtf 256.sofa'])...
);
data(ii).fs = data(ii).Obj.Data.SamplingRate;
end
%% Calibration of S
fncalib = ['calibration_g' num2str(kv.gamma,'%u') ...
'_mrs' num2str(kv.mrsmsp,'%u') ...
'_do' num2str(kv.do,'%u')];
c = amtcache('get',fncalib,flags.cachemode);
if isempty(c) || not(isequal(c.kv,kv))
data = loadBaselineData(data);
amtdisp('Calibration procedure started. Please wait!','progress')
data = baumgartner2014calibration(data,kv);
c.data = rmfield(data,{'Obj','itemlist','fs','target','response'}); % reduce filesize
c.kv = kv;
amtcache('set',fncalib,c)
end
if flags.do_baseline
data = loadBaselineData(data);
end
for ss = 1:length(data)
for ii = 1:length(c.data)
if strcmp(data(ss).id,c.data(ii).id)
data(ss).S = c.data(ii).S;
end
end
end
end
% end
end
function s = loadBaselineData(s)
latseg = [-20,0,20];
dlat = 10;
% Experimental baseline data
numchan = data_goupell2010('BB');
methods = data_majdak2010('Learn_M');
spatstrat = data_majdak2013('BB');
% ctc = data_majdak2013ctc('A');
ctcL = data_majdak2013ctc('Learn');
for ll = 1:length(s)
s(ll).itemlist = [];
s(ll).itemlist = [s(ll).itemlist ; numchan(ismember({numchan.id},s(ll).id)).mtx];
s(ll).itemlist = [s(ll).itemlist ; methods(ismember({methods.id},s(ll).id)).mtx];
s(ll).itemlist = [s(ll).itemlist ; spatstrat(ismember({spatstrat.id},s(ll).id)).mtx];
% s(ll).itemlist = [s(ll).itemlist ; ctcA(ismember({ctcA.id},s(ll).id)).mtx];
% s(ll).itemlist = [s(ll).itemlist ; ctcB(ismember({ctcB.id},s(ll).id)).mtx];
s(ll).itemlist = [s(ll).itemlist ; ctcL(ismember({ctcL.id},s(ll).id)).mtx];
s(ll).pe_exp = localizationerror(s(ll).itemlist,'rmsPmedianlocal');
s(ll).qe_exp = localizationerror(s(ll).itemlist,'querrMiddlebrooks');
for ii = 1:length(latseg)
latresp = s(ll).itemlist(:,7);
idlat = latresp <= latseg(ii)+dlat & latresp > latseg(ii)-dlat;
mm2 = s(ll).itemlist(idlat,:);
s(ll).pe_exp_lat(ii) = localizationerror(mm2,'rmsPmedianlocal');
s(ll).qe_exp_lat(ii) = localizationerror(mm2,'querrMiddlebrooks');
s(ll).target{ii} = mm2(:,6); % polar angle of target
s(ll).response{ii} = mm2(:,8); % polar angle of response
s(ll).Ntargets{ii} = length(s(ll).target{ii});
end
end
end