Difference between revisions of "LocalGlobal Details"
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== Sample code for Monkey Ji and Rc == | == Sample code for Monkey Ji and Rc == | ||
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− | + | addpath(genpath('D:\MATLAB_toolboxes\eeglab14_1_1b')) | |
− | + | cd G:\Local_global_marmoset | |
− | + | Subject='Ji'; | |
− | + | % Subject='Rc'; | |
− | + | ||
− | + | Expt_name=sprintf('%s20*',Subject); | |
+ | Expt=ls(Expt_name); | ||
+ | Expt_num=size(Expt,1); | ||
+ | |||
+ | FS=1000; %Hz | ||
+ | DS=1; | ||
+ | |||
+ | Channel_num=96; | ||
+ | |||
+ | %% | ||
+ | |||
+ | Data_all=[]; | ||
+ | Time=[]; | ||
+ | Stim_time=[]; | ||
+ | Block_idx=[]; | ||
+ | Trial_idx=[]; | ||
+ | Expt_idx=[]; | ||
+ | |||
+ | Time_offset=0; | ||
− | for | + | for expt=1:Expt_num |
− | |||
− | |||
− | + | cd(Expt(expt,:)) | |
− | + | load Event %allBlockIdx allTrialIdx StimOn | |
− | |||
− | + | fprintf(1,'>> Expt%d/%d: %s (%.1f min)(%d trials)\n',expt, Expt_num,Expt(expt,:),length(EventTime)/1000/60,length(StimOn)) | |
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− | + | ||
+ | Data=zeros(Channel_num,length([1:DS:length(EventTime)])); | ||
− | + | for ch=1:Channel_num | |
− | + | FN=sprintf('ECoG_ch%d',ch); | |
− | cd . | + | load(FN) |
+ | |||
+ | str=sprintf('Data(ch,:)=ECoGData_ch%d(1:DS:end);',ch); | ||
+ | eval(str) | ||
+ | end | ||
+ | |||
+ | Data_all=[Data_all Data]; | ||
+ | Time=[Time EventTime(1:DS:end)/FS+Time_offset]; | ||
+ | Stim_time=[Stim_time StimOn/FS+Time_offset]; | ||
+ | Block_idx=[Block_idx allBlockIdx]; | ||
+ | Trial_idx=[Trial_idx allTrialIdx]; | ||
+ | Expt_idx=[Expt_idx ones(1,length(allTrialIdx))*expt]; | ||
+ | |||
+ | Time_offset=Time(end)+DS/FS; | ||
+ | |||
+ | clear Data EventTime StimOn | ||
+ | |||
+ | cd .. | ||
+ | |||
+ | end | ||
+ | |||
+ | == Sample code for Monkey Yo, Ca and Rm == | ||
+ | |||
+ | clear | ||
+ | |||
+ | addpath(genpath('D:\MATLAB_toolboxes\eeglab14_1_1b')) | ||
+ | cd G:\Local_global_marmoset | ||
+ | |||
+ | Subject='Ca'; | ||
+ | % Subject='Rm'; | ||
+ | % Subject='Yo'; | ||
+ | |||
+ | Expt_name=sprintf('%s20*',Subject); | ||
+ | Expt=ls(Expt_name); | ||
+ | Expt_num=size(Expt,1); | ||
+ | |||
+ | FS=1017.25; %Hz | ||
+ | DS=1; | ||
− | end | + | Channel_num=96; |
+ | |||
+ | Trial_per_block=100; | ||
+ | |||
+ | %% Block info | ||
+ | |||
+ | Block_type_name{1}='xxxxx with deviant xxxxY'; | ||
+ | Block_type_name{2}='xxxxx with omission xxxx_'; | ||
+ | Block_type_name{3}='xxxxY with deviant xxxxx'; | ||
+ | Block_type_name{4}='xxxxY with omission xxxx_'; | ||
+ | |||
+ | Anag_xx=40; | ||
+ | Anag_xY=80; | ||
+ | Anag_xo=120; | ||
+ | |||
+ | %% | ||
+ | Data_all=[]; | ||
+ | Block_idx=[]; | ||
+ | Trial_idx=[]; | ||
+ | Expt_idx=[]; | ||
+ | Stim_idx=[]; | ||
+ | |||
+ | Idx_offset=0; | ||
+ | |||
+ | for expt=1:Expt_num | ||
+ | |||
+ | cd(Expt(expt,:)) | ||
+ | |||
+ | %% Event | ||
+ | load('TriG_ch2.mat') | ||
+ | |||
+ | %trim Trig if longer than wave | ||
+ | load('ECoG_ch1'); | ||
+ | |||
+ | if length(Trig)>length(wave) | ||
+ | Trig=Trig(1:length(wave)); | ||
+ | end | ||
+ | |||
+ | %downsample | ||
+ | Trig=Trig(1:DS:end); | ||
+ | |||
+ | Onset=find(diff(Trig)>10); | ||
+ | Nope=find(Trig(Onset)>10); | ||
+ | Onset(Nope)=[]; | ||
+ | |||
+ | Trial_idx_expt=round(Trig(Onset+10)/40); %1: xxxxx; 2: xxxxY; 3:xxxxo | ||
+ | |||
+ | Block_idx_expt=zeros(1,length(Onset)); | ||
+ | |||
+ | %%% Could be only 3 blocks | ||
+ | Block_per_expt=ceil(length(Block_idx_expt)/Trial_per_block); | ||
+ | |||
+ | for block=1:Block_per_expt | ||
+ | if block<Block_per_expt | ||
+ | XX=Trial_idx_expt([1:Trial_per_block]+(block-1)*Trial_per_block); | ||
+ | else % the last block could be short | ||
+ | XX=Trial_idx_expt((1+(block-1)*Trial_per_block):end); | ||
+ | end | ||
+ | Stand=XX(1); | ||
+ | Dev=find(XX~=Stand); | ||
+ | Dev=XX(Dev(1)); | ||
+ | |||
+ | if Stand==1 & Dev==2 | ||
+ | B_type=1; | ||
+ | elseif Stand==1 & Dev==3 | ||
+ | B_type=2; | ||
+ | elseif Stand==2 & Dev==1 | ||
+ | B_type=3; | ||
+ | elseif Stand==2 & Dev==3 | ||
+ | B_type=4; | ||
+ | else | ||
+ | B_type=-1; | ||
+ | end | ||
+ | |||
+ | if block<Block_per_expt | ||
+ | Block_idx_expt([1:Trial_per_block]+(block-1)*Trial_per_block)=B_type; | ||
+ | else | ||
+ | Block_idx_expt((1+(block-1)*Trial_per_block):end)=B_type; | ||
+ | end | ||
+ | |||
+ | end | ||
+ | |||
+ | Trial_idx=[Trial_idx Trial_idx_expt]; | ||
+ | Block_idx=[Block_idx Block_idx_expt]; | ||
+ | Expt_idx=[Expt_idx ones(1,length(Onset))*expt]; | ||
+ | |||
+ | Stim_idx=[Stim_idx Onset+Idx_offset]; | ||
+ | |||
+ | Idx_offset=Idx_offset+length(Trig); | ||
+ | |||
+ | %% | ||
+ | fprintf(1,'>> Expt %d/%d: %s (%d trials)\n',expt, Expt_num,Expt(expt,:),length(Onset)) | ||
+ | |||
+ | Data=zeros(Channel_num,length(Trig)); | ||
+ | for ch=1:Channel_num | ||
+ | FN=sprintf('ECoG_ch%d',ch); | ||
+ | load(FN) | ||
+ | |||
+ | Data(ch,:)=wave(1:DS:end); | ||
+ | end | ||
+ | |||
+ | Data_all=[Data_all Data]; | ||
+ | |||
+ | clear Data wave | ||
+ | cd .. | ||
+ | end | ||
+ | Time=[0:size(Data_all,2)-1]/FS*DS; | ||
+ | Stim_time=Time(Stim_idx); |
Latest revision as of 22:13, 6 July 2024
Contents
Experiment Settings
Not that the followings are default settings, and the actual details are in the each paper.
Stimuli: x=800 Hz, Y=1600 Hz, 50 ms duration No raise/fall time
Trial: ISI = 150 ms (thus SOA = 200 ms), ITI = [1.8 2.0] s
Block: 10 types, randomized order
1 block contains 100 trials (20 habituation, 64 standards, and 16 deviants).
Tone Index:
1. xxxxx
2. xxxxY
3. xxxx_
4. YYYYY
5. YYYYx
6. YYYY_
Block Index:
1. xxxxx with deviant xxxxY
2. xxxxx with omission xxxx_
3. xxxxY with deviant xxxxx
4. xxxxY with omission xxxx_
5. pure omission xxxx_
6. YYYYY with deviant YYYYx
7. YYYYY with omission YYYY_
8. YYYYx with deviant YYYYY
9. YYYYx with omission YYYY_
10. pure omission YYYY_
Data format
Data can be download from Brain/MINDS data portal.
One zip file has one date data which consists of a session.
For Monkey Ji and Rc:
‘ECoG_ch**.mat‘ had ECoG data of electrode. ** means number of electrode. Sampling rate was 1 kHz.
‘ECoGTime.mat‘ had time of ECoG data.
‘Event.mat‘ had information of condition.
‘Eye.mat‘ had eye tracking data recorded from right eye.
‘Audio.mat‘ had a audio data.
For Monkey Yo, Ca and Rm:
‘ECoG_ch**.mat‘ had ECoG data of electrode. ** means number of electrode. Sampling rate was 1017.25 Hz.
‘TriG_ch2.mat‘ had information of condition.
‘Aud_ch1.mat‘ had a audio data.
Sample code for Monkey Ji and Rc
clear addpath(genpath('D:\MATLAB_toolboxes\eeglab14_1_1b')) cd G:\Local_global_marmoset Subject='Ji'; % Subject='Rc'; Expt_name=sprintf('%s20*',Subject); Expt=ls(Expt_name); Expt_num=size(Expt,1); FS=1000; %Hz DS=1; Channel_num=96; %% Data_all=[]; Time=[]; Stim_time=[]; Block_idx=[]; Trial_idx=[]; Expt_idx=[]; Time_offset=0; for expt=1:Expt_num cd(Expt(expt,:)) load Event %allBlockIdx allTrialIdx StimOn fprintf(1,'>> Expt%d/%d: %s (%.1f min)(%d trials)\n',expt, Expt_num,Expt(expt,:),length(EventTime)/1000/60,length(StimOn)) Data=zeros(Channel_num,length([1:DS:length(EventTime)])); for ch=1:Channel_num FN=sprintf('ECoG_ch%d',ch); load(FN) str=sprintf('Data(ch,:)=ECoGData_ch%d(1:DS:end);',ch); eval(str) end Data_all=[Data_all Data]; Time=[Time EventTime(1:DS:end)/FS+Time_offset]; Stim_time=[Stim_time StimOn/FS+Time_offset]; Block_idx=[Block_idx allBlockIdx]; Trial_idx=[Trial_idx allTrialIdx]; Expt_idx=[Expt_idx ones(1,length(allTrialIdx))*expt]; Time_offset=Time(end)+DS/FS; clear Data EventTime StimOn cd .. end
Sample code for Monkey Yo, Ca and Rm
clear addpath(genpath('D:\MATLAB_toolboxes\eeglab14_1_1b')) cd G:\Local_global_marmoset Subject='Ca'; % Subject='Rm'; % Subject='Yo'; Expt_name=sprintf('%s20*',Subject); Expt=ls(Expt_name); Expt_num=size(Expt,1); FS=1017.25; %Hz DS=1; Channel_num=96; Trial_per_block=100; %% Block info Block_type_name{1}='xxxxx with deviant xxxxY'; Block_type_name{2}='xxxxx with omission xxxx_'; Block_type_name{3}='xxxxY with deviant xxxxx'; Block_type_name{4}='xxxxY with omission xxxx_'; Anag_xx=40; Anag_xY=80; Anag_xo=120; %% Data_all=[]; Block_idx=[]; Trial_idx=[]; Expt_idx=[]; Stim_idx=[]; Idx_offset=0; for expt=1:Expt_num cd(Expt(expt,:)) %% Event load('TriG_ch2.mat') %trim Trig if longer than wave load('ECoG_ch1'); if length(Trig)>length(wave) Trig=Trig(1:length(wave)); end %downsample Trig=Trig(1:DS:end); Onset=find(diff(Trig)>10); Nope=find(Trig(Onset)>10); Onset(Nope)=[]; Trial_idx_expt=round(Trig(Onset+10)/40); %1: xxxxx; 2: xxxxY; 3:xxxxo Block_idx_expt=zeros(1,length(Onset)); %%% Could be only 3 blocks Block_per_expt=ceil(length(Block_idx_expt)/Trial_per_block); for block=1:Block_per_expt if block<Block_per_expt XX=Trial_idx_expt([1:Trial_per_block]+(block-1)*Trial_per_block); else % the last block could be short XX=Trial_idx_expt((1+(block-1)*Trial_per_block):end); end Stand=XX(1); Dev=find(XX~=Stand); Dev=XX(Dev(1)); if Stand==1 & Dev==2 B_type=1; elseif Stand==1 & Dev==3 B_type=2; elseif Stand==2 & Dev==1 B_type=3; elseif Stand==2 & Dev==3 B_type=4; else B_type=-1; end if block<Block_per_expt Block_idx_expt([1:Trial_per_block]+(block-1)*Trial_per_block)=B_type; else Block_idx_expt((1+(block-1)*Trial_per_block):end)=B_type; end end Trial_idx=[Trial_idx Trial_idx_expt]; Block_idx=[Block_idx Block_idx_expt]; Expt_idx=[Expt_idx ones(1,length(Onset))*expt]; Stim_idx=[Stim_idx Onset+Idx_offset]; Idx_offset=Idx_offset+length(Trig); %% fprintf(1,'>> Expt %d/%d: %s (%d trials)\n',expt, Expt_num,Expt(expt,:),length(Onset)) Data=zeros(Channel_num,length(Trig)); for ch=1:Channel_num FN=sprintf('ECoG_ch%d',ch); load(FN) Data(ch,:)=wave(1:DS:end); end Data_all=[Data_all Data]; clear Data wave cd .. end Time=[0:size(Data_all,2)-1]/FS*DS; Stim_time=Time(Stim_idx);