Mercurial > hg > aimmat
view aim-mat/modules/usermodule/pitchstrength/displaypitchstrength.m @ 4:537f939baef0 tip
various bug fixes and changed copyright message
| author | Stefan Bleeck <bleeck@gmail.com> |
|---|---|
| date | Tue, 16 Aug 2011 14:37:17 +0100 |
| parents | |
| children |
line wrap: on
line source
% generating function for 'aim-mat' % % INPUT VALUES: % % RETURN VALUE: % % % (c) 2011, University of Southampton % Maintained by Stefan Bleeck (bleeck@gmail.com) % download of current version is on the soundsoftware site: % http://code.soundsoftware.ac.uk/projects/aimmat % documentation and everything is on http://www.acousticscale.org function displaypitchstrength(sai,options,frame_number,ax) if nargin<4 ax=gca; end % ?????? per Definition ???? % minimum_time_interval=0.1; % in ms % maximum_time_interval=35; ti_result=options.handles.data.usermodule{frame_number}.ti_result; % f_result=options.handles.data.usermodule{frame_number}.f_result; if ~isfield(ti_result,'peaks') return; end % fq_sum = f_result.smoothed_signal; int_sum = ti_result.smoothed_signal; cla; hold on % TIP % tip=getvalues(int_sum); % the tip is in the form of a logarithmic signal, it must therfore be % transformed back to linear: % tip_x = bin2time(int_sum, 1:length(tip)); % Get the times % tip_x = tip_x((tip_x>=(minimum_time_interval/1000)) & tip_x<=(maximum_time_interval/1000)); % tip = tip(time2bin(int_sum,tip_x(1)):time2bin(int_sum,tip_x(end))); % % tip_x is in ms. Change to Hz % tip_x = 1./tip_x; % plot(tip_x, tip, 'b'); % plot the smoothed interval profile, from which the pitch was derived smoothed_signal=ti_result.smoothed_signal; % if ~isempty(smoothed_signal) % smoothed_signal=linsigx(smoothed_signal); % change the logarithmic signal back to linear % % smoothed_signal=reverse(smoothed_signal); % smoothval=getvalues(smoothed_signal); % s_x = bin2time(smoothed_signal, 1:length(smoothval)); % Get the times % s_x = s_x((s_x>=(minimum_time_interval/1000)) & s_x<=(maximum_time_interval/1000)); % % smoothval=smoothval(time2bin(smoothed_signal,s_x(1)):time2bin(smoothed_signal,s_x(end))); % % s_x=f2f(s_x,0,0.035,0.0001,0.035); % % s_x=(s_x+0.0001); %?????????? % % s_x=s_x*1.01; %?????????? % s_x=1./s_x; % plot(ax,s_x,smoothval,'b'); % end % set(gca,'XScale','log'); plot(smoothed_signal); hold on % xlabel('Frequency [Hz]'); set(gca, 'YAxisLocation','right'); % pks = []; % nr_labels = 8; % ti=50*power(2,[0:nr_labels]); % for i=1:length(pks) % ti = ti((ti>(pks(i)+pks(i)*0.1))|(ti<pks(i)-pks(i)*0.1)); % end % ti = [ti round(pks)]; % ti = sort(ti); % set(gca,'XTick', ti); % set(gca, 'XLim',[1000/maximum_time_interval sai{frame_number}.channel_center_fq(end)]) set(options.handles.checkbox6, 'Value',0); set(options.handles.checkbox7, 'Value',0); % if there is a target frequency, then plot this one also! target_frequency=options.target_frequency; % at least three possibilities: take the hight: % pitchstrength=ti_result.free.highest_peak_hight; % dominant_frequency_found= ti_result.free.highest_peak_frequency; % three different pitch strengths % select the one with the highest peak rate peaks=ti_result.peaks; % select the one with the highest neigbouring_ratio peaks2=sortstruct(peaks,'v2012_height_base_width_ratio'); % peaks2=sortstruct(peaks,'peak_base_height_y'); % peaks2=sortstruct(peaks,'y'); if length(peaks2)>1 % for ii=1:length(peaks) for i=1:min(3,length(peaks)) t=peaks2{i}.t; ypeak=peaks2{i}.y; % ps=peaks{ii}.pitchstrength; ps=peaks2{i}.v2012_height_base_width_ratio; if i==1 plot(t,ypeak,'Marker','o','Markerfacecolor','b','MarkeredgeColor','b','MarkerSize',10); text(t,ypeak*1.05,sprintf('%3.0f Hz: %4.2f ',1/t,ps),'VerticalAlignment','bottom','HorizontalAlignment','center','color','b','Fontsize',12); else plot(t,ypeak,'Marker','o','Markerfacecolor','g','MarkeredgeColor','w','MarkerSize',5); text(t,ypeak*1.05,sprintf('%3.0f Hz: %4.2f ',1/t,ps),'VerticalAlignment','bottom','HorizontalAlignment','center','color','g','Fontsize',12); end plot(peaks2{i}.left.t,peaks2{i}.left.y,'Marker','o','Markerfacecolor','r','MarkeredgeColor','r','MarkerSize',5); plot(peaks2{i}.right.t,peaks2{i}.right.y,'Marker','o','Markerfacecolor','r','MarkeredgeColor','r','MarkerSize',5); ybase=peaks2{i}.v2012_base_where_widths; line([t t],[ybase ypeak],'color','m'); line([peaks2{i}.left.t peaks2{i}.right.t],[ybase ybase],'color','m'); end set(gca,'xscale','log') set(gca,'xlim',[0.001 0.03]) fres=[500 300 200 150 100 70 50 20]; set(gca,'xtick',1./fres); set(gca,'xticklabel',fres); xlabel('Frequency (Hz)') ylabel('arbitrary normalized units') end if target_frequency>0 % search only at one special frequency found_fre=ti_result.fixed.highest_peak_frequency; if found_fre>0 yval=gettimevalue(smoothed_signal,1/found_fre); else yval=0; end plot(found_fre,yval,'Marker','o','Markerfacecolor','y','MarkeredgeColor','w','MarkerSize',5); found_ps=ti_result.fixed.highest_peak_hight; plot(found_fre,yval,'Marker','o','Markerfacecolor','g','MarkeredgeColor','w','MarkerSize',10); text(found_fre/1.1,yval*1.01, ['Pitchstrength at fixed ' num2str(round(found_fre)) 'Hz: ' num2str(fround(found_ps,2)) ],'VerticalAlignment','bottom','HorizontalAlignment','right','color','g','Fontsize',12); bordery=get(gca,'Ylim'); line([target_frequency target_frequency],[bordery(1) bordery(2)],'color','g') min_fre=target_frequency/options.allowed_frequency_deviation; max_fre=target_frequency*options.allowed_frequency_deviation; line([min_fre min_fre],[bordery(1) bordery(2)],'color','g') line([max_fre max_fre],[bordery(1) bordery(2)],'color','g') end % maxy=sai{end}.ti_resultlt.peaks{1}.y; maxy=max(int_sum); if maxy==0 maxy=1; end set(ax,'Ylim',[0,maxy*1.1]); % plot the frequency profile plot_frequency_profile=0; if plot_frequency_profile %Plot both profiles into one figure % FQP fqp = getvalues(fq_sum)'; % fqp = fqp /1000; plot(sai{frame_number}.channel_center_fq, fqp,'r'); peaks=f_result.peaks; if length(peaks)>1 % for ii=1:length(peaks) for ii=1:1 fre=1/peaks{ii}.t; yval=peaks{ii}.y; % ps=peaks{ii}.pitchstrength; ps=peaks{ii}.y; if ii==1 plot(fre,yval,'Marker','o','Markerfacecolor','r','MarkeredgeColor','r','MarkerSize',10); text(fre,yval*1.03,sprintf('%3.0f Hz: %4.2f ',fre,ps),'VerticalAlignment','bottom','HorizontalAlignment','center','color','r','Fontsize',12); else plot(fre,yval,'Marker','o','Markerfacecolor','g','MarkeredgeColor','w','MarkerSize',5); text(fre,yval*1.03,sprintf('%3.0f Hz: %4.2f ',fre,ps),'VerticalAlignment','bottom','HorizontalAlignment','center','color','g','Fontsize',12); end end end hold off end return function fre=x2fre(sig,x) t_log = bin2time(sig,x); t=f2f(t_log,0,0.035,0.001,0.035,'linlog'); fre=1/t;