%% PD OFF and Control: Time-Frequnecy analysis %% ####################### Cue-locled ON-OFF ############################# clear ; clc; close all; savedir='D:\Project_EEG_CC\CC_Results_step2_AllChannels_NEW\'; cd(savedir); load('D:\Project_EEG_CC\mFiles\ONOFF.mat','ONOFF') load('D:\Project_EEG_CC\mFiles\BV_Chanlocs_60.mat'); PDsx=[801:811,813:829]; CTLsx=[8010,8070,8060,890:914]; BigN=size(ONOFF,1)./2; % load PD OFF and ON data row=1; for mi=1:size(ONOFF,1) disp([num2str(ONOFF(mi,1)),'_Session_',num2str(ONOFF(mi,2)),'_PDDys_CC_ALL_GOODS.mat']); if ONOFF(mi,1)==824 && ONOFF(mi,2)==2 % Bad EEG POWER=NaN(size_power); else load([savedir,num2str(ONOFF(mi,1)),'_Session_',num2str(ONOFF(mi,2)),'_PDDys_CC_ALL_GOODS.mat']); size_power=size(POWER); end if ONOFF(mi,3)==1 % ON ON.ID(floor(row))=ONOFF(mi,1); ON.Session(floor(row))=ONOFF(mi,2); ON.POWER{1}(floor(row),:,:,:,:,:)=POWER; elseif ONOFF(mi,3)==0 % OFF OFF.ID(floor(row))=ONOFF(mi,1); OFF.Session(floor(row))=ONOFF(mi,2); OFF.POWER{1}(floor(row),:,:,:,:,:)=POWER; end row=row+.5; clear POWER; end % load control data row=1; for CTLi=CTLsx; disp([num2str(CTLi),'_Session_1_PDDys_CC_ALL_GOODS.mat']); if ONOFF(mi,1)==911 && ONOFF(mi,2)==1 % Bad EEG POWER=NaN(size_power); else load([savedir,num2str(CTLi),'_Session_1_PDDys_CC_ALL_GOODS.mat']); end CTL.ID(floor(row))=CTLi; CTL.Session(floor(row))=1; CTL.POWER{1}(floor(row),:,:,:,:,:)=POWER; row=row+1; clear POWER ; end CtlN=row-1; %% ################## Cue-Locked Cong and Incong: CTL - OFF ###################################### paneli = 1; % Cue tx2disp=-500:2:1000; frex=logspace(.01,1.7,50); Bidx=1; % 1 is pre-cue baseline CHANI=21; % channel 21 Cz %%%%%%%%%%%%%%%%%%%%%%%%% %%% figure for PD OFF/ON - Control OFF_Conf2 = OFF.POWER{Bidx}(:,CHANI,:,:,2,paneli); OFF_Conf1 = OFF.POWER{Bidx}(:,CHANI,:,:,1,paneli); CTL_Conf2 = CTL.POWER{Bidx}(:,CHANI,:,:,2,paneli); CTL_Conf1 = CTL.POWER{Bidx}(:,CHANI,:,:,1,paneli); OFF_Conf21 = squeeze( nanmean(OFF_Conf2,1)) - squeeze( nanmean(OFF_Conf1,1)); CTL_Conf21 = squeeze( nanmean(CTL_Conf2,1)) - squeeze( nanmean(CTL_Conf1,1)); subplot(411); imagesc(tx2disp,[], CTL_Conf21 - OFF_Conf21); axis xy; hold on; colormap jet [Corrected_P] = Run_Thresh_2D(squeeze(CTL_Conf2)- squeeze(CTL_Conf1), squeeze(OFF_Conf2)- squeeze(OFF_Conf1), 'between') ; contour(tx2disp,1:50,Corrected_P,'k','linewidth',2); clear Corrected_P ; rectangle('Position',[400 18 100 9],'EdgeColor','b','LineWidth', 3) plot([0 0],[1 50],'k:') set(gca,'clim',[-1 1],'xlim',[-500,1000],'ylim',[1 50],'YTick',1:4:length(frex),'YTickLabel',round(frex(1:4:end)));hold off; title('Cue-locked CTL-OFF (Incong-Cong)'); %% ################## Response Locked Correct and Error: CTL - OFF ###################################### clearvars -except OFF ON CTL paneli = 2; tx2disp=-500:2:1000; frex=logspace(.01,1.7,50); Bidx=1; % 1 is pre-cue baseline CHANI=21; % channel 21 Cz %%%%%%%%%%%%%%%%%%%%%%%%% %%% figure for PD OFF/ON - Control OFF_Conf2 = OFF.POWER{Bidx}(:,CHANI,:,:,2,paneli); OFF_Conf1 = OFF.POWER{Bidx}(:,CHANI,:,:,1,paneli); CTL_Conf2 = CTL.POWER{Bidx}(:,CHANI,:,:,2,paneli); CTL_Conf1 = CTL.POWER{Bidx}(:,CHANI,:,:,1,paneli); OFF_Conf21 = squeeze( nanmean(OFF_Conf2,1)) - squeeze( nanmean(OFF_Conf1,1)); CTL_Conf21 = squeeze( nanmean(CTL_Conf2,1)) - squeeze( nanmean(CTL_Conf1,1)); subplot(412); imagesc(tx2disp,[], CTL_Conf21 - OFF_Conf21); axis xy; hold on; colormap jet [Corrected_P] = Run_Thresh_2D(squeeze(CTL_Conf2)- squeeze(CTL_Conf1), squeeze(OFF_Conf2)- squeeze(OFF_Conf1), 'between') ; contour(tx2disp,1:50,Corrected_P,'k','linewidth',2); clear Corrected_P ; rectangle('Position',[-200 18 250 9],'EdgeColor','b','LineWidth', 3); plot([0 0],[1 50],'k:') set(gca,'clim',[-1 1],'xlim',[-500,1000],'ylim',[1 50],'YTick',1:4:length(frex),'YTickLabel',round(frex(1:4:end)));hold off; title('Resp-locked CTL-OFF (Error-Correct)'); %% CORRECT ONLT: Resp locked: Cong and Incong clear;clc; savedir='D:\Project_EEG_CC\CC_Results_step2_CORRECT_NEW\'; cd(savedir); load('D:\Project_EEG_CC\mFiles\ONOFF.mat','ONOFF') load('D:\Project_EEG_CC\mFiles\BV_Chanlocs_60.mat'); PDsx=[801:811,813:829]; CTLsx=[8010,8070,8060,890:914]; BigN=size(ONOFF,1)./2; % load PD OFF and ON data row=1; for mi=1:size(ONOFF,1) disp([num2str(ONOFF(mi,1)),'_Session_',num2str(ONOFF(mi,2)),'_PDDys_CC_ALL_GOODS.mat']); if ONOFF(mi,1)==824 && ONOFF(mi,2)==2 % Bad EEG POWER=NaN(size_power); else load([savedir,num2str(ONOFF(mi,1)),'_Session_',num2str(ONOFF(mi,2)),'_PDDys_CC_ALL_GOODS.mat']); size_power=size(POWER); end if ONOFF(mi,3)==1 % ON ON.ID(floor(row))=ONOFF(mi,1); ON.Session(floor(row))=ONOFF(mi,2); ON.POWER{1}(floor(row),:,:,:,:,:)=POWER; elseif ONOFF(mi,3)==0 % OFF OFF.ID(floor(row))=ONOFF(mi,1); OFF.Session(floor(row))=ONOFF(mi,2); OFF.POWER{1}(floor(row),:,:,:,:,:)=POWER; end row=row+.5; clear Model_Output POWER ; end % load control data row=1; for CTLi=CTLsx; disp([num2str(CTLi),'_Session_1_PDDys_CC_ALL_GOODS.mat']); if ONOFF(mi,1)==911 && ONOFF(mi,2)==1 % Bad EEG ERPs=NaN(size_erp);POWER=NaN(size_power); POWER_REST=NaN(size_power); Baselines=NaN(60,50,2); else load([savedir,num2str(CTLi),'_Session_1_PDDys_CC_ALL_GOODS.mat']); end CTL.ID(floor(row))=CTLi; CTL.Session(floor(row))=1; CTL.POWER{1}(floor(row),:,:,:,:,:)=POWER; row=row+1; clear Model_Output POWER ; end CtlN=row-1; tx2disp=-500:2:1000; frex=logspace(.01,1.7,50); CHANS=(1:60); Bidx=1; % 1 is pre-cue baseline CHANI=21; % channel Cz %%%%%%%%%%%%%%%%%%%%%%%%% %%% figure for PD ON - Control CTL_Conf2 = CTL.POWER{Bidx}(:,CHANI,:,:,2); CTL_Conf1 = CTL.POWER{Bidx}(:,CHANI,:,:,1); OFF_Conf2 = OFF.POWER{Bidx}(:,CHANI,:,:,2); OFF_Conf1 = OFF.POWER{Bidx}(:,CHANI,:,:,1); CTL_Conf21 = squeeze( nanmean(CTL_Conf2,1)) - squeeze( nanmean(CTL_Conf1,1)); PD_OFF_Conf21 = squeeze( nanmean(OFF_Conf2,1)) - squeeze( nanmean(OFF_Conf1,1)); subplot(413); imagesc(tx2disp,[], CTL_Conf21 - PD_OFF_Conf21); axis xy; hold on; colormap jet [Corrected_P] = Run_Thresh_2D(squeeze(OFF_Conf2)- squeeze(OFF_Conf1), squeeze(CTL_Conf2)- squeeze(CTL_Conf1), 'between') ; contour(tx2disp,1:50,Corrected_P,'k','linewidth',2); clear Corrected_P; plot([0 0],[1 50],'k:') % plot ROI in Green Color rectangle('Position',[-200 18 250 9],'EdgeColor','b','LineWidth', 3) set(gca,'clim',[-1 1],'xlim',[-500,1000],'ylim',[1 50],'YTick',1:4:length(frex),'YTickLabel',round(frex(1:4:end)));hold off; title('Resp-locked CTL-OFF (Incong-Cong)'); %% ################## Post Error- Post Correct: CTL-OFF ################################################### clear; clc; %%%% get the data savedir='D:\Project_EEG_CC\CC_Project_PostError\PostError_step2_Data_NEW\'; % Main Data are here cd(savedir); load('D:\Project_EEG_CC\CC_Project_PostError\ONOFF.mat','ONOFF') load('D:\Project_EEG_CC\CC_Project_PostError\BV_Chanlocs_60.mat'); PDsx=[801:811,813:829]; CTLsx=[8010,8070,8060,890:914]; BigN=size(ONOFF,1)./2; % load PD OFF and ON data row=1; for mi=1:size(ONOFF,1) disp([num2str(ONOFF(mi,1)),'_Session_',num2str(ONOFF(mi,2)),'_PDDys_CC_ALL_GOODS.mat']); if ONOFF(mi,1)==824 && ONOFF(mi,2)==2 % Bad EEG POWER=NaN(size_power); else load([savedir,num2str(ONOFF(mi,1)),'_Session_',num2str(ONOFF(mi,2)),'_PDDys_CC_ALL_GOODS.mat']); size_power=size(POWER); end if ONOFF(mi,3)==1 % ON ON.ID(floor(row))=ONOFF(mi,1); ON.Session(floor(row))=ONOFF(mi,2); ON.POWER{1}(floor(row),:,:,:,:,:)=POWER; elseif ONOFF(mi,3)==0 % OFF OFF.ID(floor(row))=ONOFF(mi,1); OFF.Session(floor(row))=ONOFF(mi,2); OFF.POWER{1}(floor(row),:,:,:,:,:)=POWER; end row=row+.5; clear Model_Output POWER ; end % load control data row=1; for CTLi=CTLsx; disp([num2str(CTLi),'_Session_1_PDDys_CC_ALL_GOODS.mat']); if ONOFF(mi,1)==911 && ONOFF(mi,2)==1 % Bad EEG VECTOR=NaN; POWER=NaN(size_power); POWER_REST=NaN(size_power); Baselines=NaN(60,50,2); else load([savedir,num2str(CTLi),'_Session_1_PDDys_CC_ALL_GOODS.mat']); end CTL.ID(floor(row))=CTLi; CTL.Session(floor(row))=1; CTL.POWER{1}(floor(row),:,:,:,:,:)=POWER; row=row+1; clear POWER ; end CtlN=row-1; tx2disp=-500:2:1000; frex=logspace(.01,1.7,50); Bidx=1; % 1 is pre-cue baseline | 2 is rest baseline CHANI=21; EVENT=2; % RESP % ############################## Time-Frequnecy ############################################### %%%%%%%%%%%%%%%%%%%%%%%%% %%% figure for PD OFF/ON CTL_PC = CTL.POWER{Bidx}(:,CHANI,:,:, 1,EVENT); CTL_PE = CTL.POWER{Bidx}(:,CHANI,:,:,2,EVENT); OFF_PC = OFF.POWER{Bidx}(:,CHANI,:,:, 1,EVENT); OFF_PE = OFF.POWER{Bidx}(:,CHANI,:,:,2,EVENT); CTL_PEC = squeeze( nanmean(CTL_PE, 1)) - squeeze( nanmean(CTL_PC,1)); OFF_PEC = squeeze( nanmean(OFF_PE, 1)) - squeeze( nanmean(OFF_PC,1)); subplot(414); imagesc(tx2disp,[], (CTL_PEC-OFF_PEC)); axis xy; hold on; colormap jet [Corrected_P] = Run_Thresh_2D(squeeze(CTL_PE)- squeeze(CTL_PC), squeeze(OFF_PE)- squeeze(OFF_PC), 'between') ; contour(tx2disp,1:50,Corrected_P,'k','linewidth',2); clear Corrected_P ; rectangle('Position',[-200 18 250 9],'EdgeColor','b','LineWidth', 3); plot([0 0],[1 50],'k:') set(gca,'clim',[-1 1],'xlim',[-500,1000],'ylim',[1 50],'YTick',1:4:length(frex),'YTickLabel',round(frex(1:4:end)));hold off; title ('Resp-locked CTL-OFF:PostError-PostCorrect'); suptitle('CTL - OFF');