


Multi-taper coherency - continuous and binned point process data
Usage:
[C,phi,f,confC,Cerr,phierr]=coherencycpb(data1,data2,tapers,pad,Fs,fpass,err,trialave,fscorr)
Inputs:
data1 (continuous data in form samples x channels/trials) -- required
data2 (binned spike data in form samples x channels/trials) -- required
tapers (precalculated tapers from dpss, or in the form [NW K] e.g [3 5]) -- optional. If not
specified, use [NW K]=[3 5]
pad (padding factor for the FFT) - optional. Defaults to 0.
e.g. For N = 500, if PAD = 0, we pad the FFT
to 512 points; if PAD = 2, we pad the FFT
to 2048 points, etc.
Fs (binning frequency) - optional. Default 1.
fpass (frequency band to be used in the calculation in the form
[fmin fmax])- optional.
Default all frequencies between 0 and Fs/2
err (error calculation [1 p] - Theoretical error bars; [2 p] - Jackknife error bars
[0 p] or 0 - no error bars) - optional. Default 0.
trialave (average over trials when 1, don't average when 0) - optional. Default 0
fscorr (finite size corrections, 0 (don't use finite size corrections) or 1 (use finite size corrections) - optional
(available only for spikes). Defaults 0.
Outputs:
C (abs of coherency frequency index x channels/trials)
phi (phase of coherency frequency x channels/trials)
f (frequencies)
confC (confidence level for c at 1-p %)
phierr (error bars for phi)
Cerr (error bars for C only for Jacknife)

0001 function [C,phi,f,confC,phierr,Cerr]=coherencycpb(data1,data2,tapers,pad,Fs,fpass,err,trialave,fscorr) 0002 % Multi-taper coherency - continuous and binned point process data 0003 % 0004 % Usage: 0005 % 0006 % [C,phi,f,confC,Cerr,phierr]=coherencycpb(data1,data2,tapers,pad,Fs,fpass,err,trialave,fscorr) 0007 % Inputs: 0008 % data1 (continuous data in form samples x channels/trials) -- required 0009 % data2 (binned spike data in form samples x channels/trials) -- required 0010 % tapers (precalculated tapers from dpss, or in the form [NW K] e.g [3 5]) -- optional. If not 0011 % specified, use [NW K]=[3 5] 0012 % pad (padding factor for the FFT) - optional. Defaults to 0. 0013 % e.g. For N = 500, if PAD = 0, we pad the FFT 0014 % to 512 points; if PAD = 2, we pad the FFT 0015 % to 2048 points, etc. 0016 % Fs (binning frequency) - optional. Default 1. 0017 % fpass (frequency band to be used in the calculation in the form 0018 % [fmin fmax])- optional. 0019 % Default all frequencies between 0 and Fs/2 0020 % err (error calculation [1 p] - Theoretical error bars; [2 p] - Jackknife error bars 0021 % [0 p] or 0 - no error bars) - optional. Default 0. 0022 % trialave (average over trials when 1, don't average when 0) - optional. Default 0 0023 % fscorr (finite size corrections, 0 (don't use finite size corrections) or 1 (use finite size corrections) - optional 0024 % (available only for spikes). Defaults 0. 0025 % Outputs: 0026 % C (abs of coherency frequency index x channels/trials) 0027 % phi (phase of coherency frequency x channels/trials) 0028 % f (frequencies) 0029 % confC (confidence level for c at 1-p %) 0030 % phierr (error bars for phi) 0031 % Cerr (error bars for C only for Jacknife) 0032 0033 if nargin < 2; error('Need data1 and data2'); end 0034 warning off MATLAB:divideByZero 0035 [N1,C1]=size(data1); 0036 [N2,C2]=size(data2); 0037 if N1~=N2 | C1~=C2; error('continuous and binned spike data are incompatible'); end; 0038 N=N1; 0039 if nargin < 3; tapers=[3 5]; end; 0040 if nargin < 4;pad=0;end; 0041 if nargin < 5; Fs=1; end; 0042 if nargin < 6; fpass=[0 Fs/2]; end; 0043 if nargin < 7; err=0; end; 0044 if nargin < 8; trialave=0;end; 0045 if nargin < 9; fscorr=0; end; 0046 0047 if isempty(tapers); tapers=[3 5]; end; 0048 if isempty(pad);pad=0;end; 0049 if isempty(Fs); Fs=1; end; 0050 if isempty(fpass); fpass=[0 Fs/2]; end; 0051 if isempty(err); err=0; end; 0052 if isempty(trialave); trialave=0;end; 0053 if isempty(fscorr);fscorr=0;end; 0054 0055 0056 nfft=2^(nextpow2(N)+pad); 0057 [f,findx]=getfgrid(Fs,nfft,fpass); 0058 tapers=dpsschk(tapers,N,Fs); % check tapers 0059 J1=mtfftc(data1,tapers,nfft,Fs); % fourier transform of continuous data 0060 [J2,Msp2,Nsp2]=mtfftpb(data2,tapers,nfft,Fs); % fourier transform of point process data 0061 J1=J1(findx,:,:); 0062 J2=J2(findx,:,:); 0063 S12=squeeze(mean(conj(J1).*J2,2)); 0064 S1=squeeze(mean(conj(J1).*J1,2)); 0065 S2=squeeze(mean(conj(J2).*J2,2)); 0066 if trialave; S12=squeeze(mean(S12,2)); S1=squeeze(mean(S1,2)); S2=squeeze(mean(S2,2)); end; 0067 C12=S12./sqrt(S1.*S2); 0068 %if trialave==1; C12=squeeze(mean(C12,2));end; 0069 C=abs(C12); 0070 phi=angle(C12); 0071 if nargout==6; 0072 if fscorr==1; 0073 [confC,phierr,Cerr]=coherr(C,J1,J2,err,trialave,[],Nsp2); 0074 else 0075 [confC,phierr,Cerr]=coherr(C,J1,J2,err,trialave); 0076 end; 0077 elseif nargout==5; 0078 if fscorr==1; 0079 [confC,phierr]=coherr(C,J1,J2,err,trialave,[],Nsp2); 0080 else 0081 [confC,phierr]=coherr(C,J1,J2,err,trialave); 0082 end; 0083 end;