The Auditory Modeling Toolbox
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plot_ziegelwanger2014 - Plot time-of-arrival
Program code:
function [h]=plot_ziegelwanger2014(Obj,data,type,color,ele,ch,time,style,width)
%plot_ziegelwanger2014 Plot time-of-arrival
% Usage: plot_ziegelwanger2014(Obj,data,type,color,ele,ch,time,style,width)
%
% PLOT_ZIEGELWANGER2014(Obj,data,type,color,ele,ch,time,style,width)
% plots TOA-data in horizontal planes.
%
% Input:
% Obj: SOFA object
%
% data:
%
% type:
%
% color:
%
% ele:
%
% ch:
%
% time:
%
% style:
%
% width:
%
%
% Output:
% h: figure handle
%
% Estimates the Time-of-Arrival for each column in input data hM and corrects
% the results with a geometrical model of the head.
%
% Examples:
% ---------
%
% To plot the modelled TOA in the horizontal plane after using
% ziegelwanger2014, use:
%
% plot_ziegelwanger2014((Obj,Obj.Data.Delay,1,'b',0,1,1);
%
% See also: ziegelwanger2014_onaxis, ziegelwanger2014_offaxis,
% data_ziegelwanger2014, exp_ziegelwanger2014
%
% References:
% H. Ziegelwanger and P. Majdak. Modeling the direction-continuous
% time-of-arrival in head-related transfer functions. J. Acoust. Soc.
% Am., 135:1278--1293, 2014.
%
%
% Url: http://amtoolbox.sourceforge.net/data/amt-test/htdocs/amt-0.10.0/doc/plot/plot_ziegelwanger2014.php
% Copyright (C) 2009-2020 Piotr Majdak and the AMT team.
% This file is part of Auditory Modeling Toolbox (AMT) version 0.10.0
%
% 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: Harald Ziegelwanger, Acoustics Research Institute, Vienna,
% Austria
%% ----------------------------check variables-----------------------------
if time
data=data/Obj.Data.SamplingRate*1000;
end
if exist('style','var')
if ischar(style)
style={style};
end
end
if ~ischar(color)
rgbcolor=color;
color='b'*ones(1,size(color,1));
end
Obj.APV=Obj.SourcePosition(:,1:2);
%% --------------------------------plot TOA--------------------------------
[~,idx1]=sort(Obj.APV(:,1));
idx2=find(Obj.APV(idx1,2)==ele);
for ii=1:length(type)
switch type(ii)
case 1
h=plot(Obj.APV(idx1(idx2),1),data(idx1(idx2),ii*2-1+(ch-1)),[color(ii) '-']);
case 2
h=plot(Obj.APV(idx1(idx2),1),data(idx1(idx2),ii*2-1+(ch-1)),[color(ii) '--']);
case 3
idx3=find(Obj.APV(idx1(idx2),2)==ele & data(idx1(idx2),ii*2-1+(ch-1))~=0);
if exist('style','var')
h=plot(Obj.APV(idx1(idx2(idx3)),1),data(idx1(idx2(idx3)),ii*2-1+(ch-1)),[color(ii) style{ii}],'MarkerSize',width(ii));%,'MarkerFaceColor',color(ii)
else
h=plot(Obj.APV(idx1(idx2(idx3)),1),data(idx1(idx2(idx3)),ii*2-1+(ch-1)),[color(ii) 'o'],'MarkerSize',2,'MarkerFaceColor',color(ii));
end
case 4
h=plot(Obj.APV(idx1(idx2),1),data(idx1(idx2),ii*2-1+(ch-1)),[color(ii) style{ii}],'LineWidth',width(ii));
end
if exist('rgbcolor','var')
set(h,'color',rgbcolor(ii,:));
end
hold on
end
title(['Elevation: ' num2str(ele) 'deg'])
xlim([0 359])
xlabel('Azimuth (deg)')
if time
ylabel('Time (ms)')
else
ylabel('Time (samples)')
end
grid on
set(gca,'XTick',[0 90 180 270 360]);
end %of funciton
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