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fdr_bh.m
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fdr_bh.m
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% fdr_bh() - Executes the Benjamini & Hochberg (1995) and the Benjamini &
% Yekutieli (2001) procedure for controlling the false discovery
% rate (FDR) of a family of hypothesis tests. FDR is the expected
% proportion of rejected hypotheses that are mistakenly rejected
% (i.e., the null hypothesis is actually true for those tests).
% FDR is a somewhat less conservative/more powerful method for
% correcting for multiple comparisons than procedures like Bonferroni
% correction that provide strong control of the family-wise
% error rate (i.e., the probability that one or more null
% hypotheses are mistakenly rejected).
%
% This function also returns the false coverage-statement rate
% (FCR)-adjusted selected confidence interval coverage (i.e.,
% the coverage needed to construct multiple comparison corrected
% confidence intervals that correspond to the FDR-adjusted p-values).
%
%
% Usage:
% >> [h, crit_p, adj_ci_cvrg, adj_p]=fdr_bh(pvals,q,method,report);
%
% Required Input:
% pvals - A vector or matrix (two dimensions or more) containing the
% p-value of each individual test in a family of tests.
%
% Optional Inputs:
% q - The desired false discovery rate. {default: 0.05}
% method - ['pdep' or 'dep'] If 'pdep,' the original Bejnamini & Hochberg
% FDR procedure is used, which is guaranteed to be accurate if
% the individual tests are independent or positively dependent
% (e.g., Gaussian variables that are positively correlated or
% independent). If 'dep,' the FDR procedure
% described in Benjamini & Yekutieli (2001) that is guaranteed
% to be accurate for any test dependency structure (e.g.,
% Gaussian variables with any covariance matrix) is used. 'dep'
% is always appropriate to use but is less powerful than 'pdep.'
% {default: 'pdep'}
% report - ['yes' or 'no'] If 'yes', a brief summary of FDR results are
% output to the MATLAB command line {default: 'no'}
%
%
% Outputs:
% h - A binary vector or matrix of the same size as the input "pvals."
% If the ith element of h is 1, then the test that produced the
% ith p-value in pvals is significant (i.e., the null hypothesis
% of the test is rejected).
% crit_p - All uncorrected p-values less than or equal to crit_p are
% significant (i.e., their null hypotheses are rejected). If
% no p-values are significant, crit_p=0.
% adj_ci_cvrg - The FCR-adjusted BH- or BY-selected
% confidence interval coverage. For any p-values that
% are significant after FDR adjustment, this gives you the
% proportion of coverage (e.g., 0.99) you should use when generating
% confidence intervals for those parameters. In other words,
% this allows you to correct your confidence intervals for
% multiple comparisons. You can NOT obtain confidence intervals
% for non-significant p-values. The adjusted confidence intervals
% guarantee that the expected FCR is less than or equal to q
% if using the appropriate FDR control algorithm for the
% dependency structure of your data (Benjamini & Yekutieli, 2005).
% FCR (i.e., false coverage-statement rate) is the proportion
% of confidence intervals you construct
% that miss the true value of the parameter. adj_ci=NaN if no
% p-values are significant after adjustment.
% adj_p - All adjusted p-values less than or equal to q are significant
% (i.e., their null hypotheses are rejected). Note, adjusted
% p-values can be greater than 1.
%
%
% References:
% Benjamini, Y. & Hochberg, Y. (1995) Controlling the false discovery
% rate: A practical and powerful approach to multiple testing. Journal
% of the Royal Statistical Society, Series B (Methodological). 57(1),
% 289-300.
%
% Benjamini, Y. & Yekutieli, D. (2001) The control of the false discovery
% rate in multiple testing under dependency. The Annals of Statistics.
% 29(4), 1165-1188.
%
% Benjamini, Y., & Yekutieli, D. (2005). False discovery rate?adjusted
% multiple confidence intervals for selected parameters. Journal of the
% American Statistical Association, 100(469), 71?81. doi:10.1198/016214504000001907
%
%
% Example:
% nullVars=randn(12,15);
% [~, p_null]=ttest(nullVars); %15 tests where the null hypothesis
% %is true
% effectVars=randn(12,5)+1;
% [~, p_effect]=ttest(effectVars); %5 tests where the null
% %hypothesis is false
% [h, crit_p, adj_ci_cvrg, adj_p]=fdr_bh([p_null p_effect],.05,'pdep','yes');
% data=[nullVars effectVars];
% fcr_adj_cis=NaN*zeros(2,20); %initialize confidence interval bounds to NaN
% if ~isnan(adj_ci_cvrg),
% sigIds=find(h);
% fcr_adj_cis(:,sigIds)=tCIs(data(:,sigIds),adj_ci_cvrg); % tCIs.m is available on the
% %Mathworks File Exchagne
% end
%
%
% For a review of false discovery rate control and other contemporary
% techniques for correcting for multiple comparisons see:
%
% Groppe, D.M., Urbach, T.P., & Kutas, M. (2011) Mass univariate analysis
% of event-related brain potentials/fields I: A critical tutorial review.
% Psychophysiology, 48(12) pp. 1711-1725, DOI: 10.1111/j.1469-8986.2011.01273.x
% http://www.cogsci.ucsd.edu/~dgroppe/PUBLICATIONS/mass_uni_preprint1.pdf
%
%
% For a review of FCR-adjusted confidence intervals (CIs) and other techniques
% for adjusting CIs for multiple comparisons see:
%
% Groppe, D.M. (in press) Combating the scientific decline effect with
% confidence (intervals). Psychophysiology.
% http://biorxiv.org/content/biorxiv/early/2015/12/10/034074.full.pdf
%
%
% Author:
% David M. Groppe
% Kutaslab
% Dept. of Cognitive Science
% University of California, San Diego
% March 24, 2010
%%%%%%%%%%%%%%%% REVISION LOG %%%%%%%%%%%%%%%%%
%
% 5/7/2010-Added FDR adjusted p-values
% 5/14/2013- D.H.J. Poot, Erasmus MC, improved run-time complexity
% 10/2015- Now returns FCR adjusted confidence intervals
function [h, crit_p, adj_ci_cvrg, adj_p]=fdr_bh(pvals,q,method,report)
if nargin<1,
error('You need to provide a vector or matrix of p-values.');
else
if ~isempty(find(pvals<0,1)),
error('Some p-values are less than 0.');
elseif ~isempty(find(pvals>1,1)),
error('Some p-values are greater than 1.');
end
end
if nargin<2,
q=.05;
end
if nargin<3,
method='pdep';
end
if nargin<4,
report='no';
end
s=size(pvals);
if (length(s)>2) || s(1)>1,
[p_sorted, sort_ids]=sort(reshape(pvals,1,prod(s)));
else
%p-values are already a row vector
[p_sorted, sort_ids]=sort(pvals);
end
[dummy, unsort_ids]=sort(sort_ids); %indexes to return p_sorted to pvals order
m=length(p_sorted); %number of tests
if strcmpi(method,'pdep'),
%BH procedure for independence or positive dependence
thresh=(1:m)*q/m;
wtd_p=m*p_sorted./(1:m);
elseif strcmpi(method,'dep')
%BH procedure for any dependency structure
denom=m*sum(1./(1:m));
thresh=(1:m)*q/denom;
wtd_p=denom*p_sorted./[1:m];
%Note, it can produce adjusted p-values greater than 1!
%compute adjusted p-values
else
error('Argument ''method'' needs to be ''pdep'' or ''dep''.');
end
if nargout>3,
%compute adjusted p-values; This can be a bit computationally intensive
adj_p=zeros(1,m)*NaN;
[wtd_p_sorted, wtd_p_sindex] = sort( wtd_p );
nextfill = 1;
for k = 1 : m
if wtd_p_sindex(k)>=nextfill
adj_p(nextfill:wtd_p_sindex(k)) = wtd_p_sorted(k);
nextfill = wtd_p_sindex(k)+1;
if nextfill>m
break;
end;
end;
end;
adj_p=reshape(adj_p(unsort_ids),s);
end
rej=p_sorted<=thresh;
max_id=find(rej,1,'last'); %find greatest significant pvalue
if isempty(max_id),
crit_p=0;
h=pvals*0;
adj_ci_cvrg=NaN;
else
crit_p=p_sorted(max_id);
h=pvals<=crit_p;
adj_ci_cvrg=1-thresh(max_id);
end
if strcmpi(report,'yes'),
n_sig=sum(p_sorted<=crit_p);
if n_sig==1,
fprintf('Out of %d tests, %d is significant using a false discovery rate of %f.\n',m,n_sig,q);
else
fprintf('Out of %d tests, %d are significant using a false discovery rate of %f.\n',m,n_sig,q);
end
if strcmpi(method,'pdep'),
fprintf('FDR/FCR procedure used is guaranteed valid for independent or positively dependent tests.\n');
else
fprintf('FDR/FCR procedure used is guaranteed valid for independent or dependent tests.\n');
end
end