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allan_overlap.m
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function [retval, s, errorb, tau] = allan_overlap(data,tau,name,verbose) % ALLAN_OVERLAP Compute the overlapping Allan deviation for a set of % time-domain frequency data % [RETVAL, S, ERRORB, TAU] = ALLAN_OVERLAP(DATA,TAU,NAME,VERBOSE) % % Inputs: % DATA should be a struct and have the following fields: % DATA.freq or DATA.phase % A vector of fractional frequency measurements (df/f) in % DATA.freq *or* phase offset data (seconds) in DATA.phase % If phase data is not present, it will be generated by % integrating the fractional frequency data. % If both fields are present, then DATA.phase will be used. % % DATA.rate or DATA.time % The sampling rate in Hertz (DATA.rate) or a vector of % timestamps for each measurement in seconds (DATA.time). % DATA.rate is used if both fields are present. % If DATA.rate == 0, then the timestamps are used. % % TAU is an array of tau values for computing Allan deviation. % TAU values must be divisible by 1/DATA.rate (data points cannot be % grouped in fractional quantities!). Invalid values are ignored. % NAME is an optional label that is added to the plot titles. % VERBOSE sets the level of status messages: % 0 = silent & no data plots; 1 = status messages; 2 = all messages % % Outputs: % RETVAL is the array of overlapping Allan deviation values at each TAU. % S is an optional output of other statistical measures of the data (mean, std, etc). % ERRORB is an optional output containing the error estimates for a 1-sigma % confidence interval. Error bars are plotted as vertical lines at each point. % TAU is an optional output containing the array of tau values used in the % calculation (which may be a truncated subset of the input or default values). % % Example: % % To compute the overlapping Allan deviation for the data in the variable "lt": % >> lt % lt = % freq: [1x86400 double] % rate: 0.5 % % Use: % % >> ado = allan_overlap(lt,[2 10 100],'lt data',1); % % The Allan deviation will be computed and plotted at tau = 2,10,100 seconds. % 1-sigma confidence intervals will be indicated by vertical lines. % You can also use the default settings, which are usually a good starting point: % % >> ado = allan_overlap(lt); % % % Notes: % This function calculates the overlapping Allan deviation (ADEV), *not* the % standard ADEV. Use "allan.m" for standard ADEV. % The calculation is performed using phase data. If only frequency data is % provided, phase data is generated by integrating the frequency data. % However, the timestamp-based calculation is performed using frequency % data. Phase data is differentiated to generate frequency data if necessary. % No pre-processing of the data is performed, except to remove any % initial offset in the time record. % For rate-based data, ADEV is computed only for tau values greater than the % minimum time between samples and less than the half the total time. For % time-stamped data, only tau values greater than the maximum gap between % samples and less than half the total time are used. % The calculation for fixed sample rate data is *much* faster than for % time-stamp data. You may wish to run the rate-based calculation first, % then compare with time-stamp-based. Often the differences are insignificant. % The error bars at each point are calculated using the 1-sigma intervals % based on the size of the data set. This is usually an overestimate for % overlapping ADEV; a more accurate (and usually smaller uncertainty) % value can be determined from chi-squared statistics, but that is not % implemented in this version. % You can choose between loglog and semilog plotting of results by % commenting in/out the appropriate line. Search for "#PLOTLOG". % This function has been validated using the test data from NBS Monograph % 140, the 1000-point test data set given by Riley [1], and the example data % given in IEEE standard 1139-1999, Annex C. % The author welcomes other validation results, see contact info below. % % For more information, see: % [1] W. J. Riley, "Addendum to a test suite for the calculation of time domain % frequency stability," presented at IEEE Frequency Control Symposium, % 1996. % Available on the web: % http://www.ieee-uffc.org/frequency_control/teaching.asp?name=paper1ht % % % M.A. Hopcroft % mhopeng at gmail dot com % % I welcome your comments and feedback! % % MH Mar2014 % v2.24 fix bug related to generating freq data from phase with timestamps % (thanks to S. David-Grignot for finding the bug) % MH Oct2010 % v2.22 tau truncation to integer groups; tau sort % plotting bugfix % v2.20 update to match allan.m (dsplot.m, columns) % discard tau values with timestamp irregularities versionstr = 'allan_overlap v2.24'; % % MH MAR2010 % v2.1 bugfixes for irregular sample rates % (thanks to Ryad Ben-El-Kezadri for feedback and testing) % handle empty rate field % fix integer comparisons for fractional sample rates % update consistency check % % MH FEB2010 % v2.0 use phase data for calculation- much faster % Consistent code behaviour for all "allan_x.m" functions: % accept phase data % verbose levels % % MH JAN2010 % v1.0 based on allan v1.84 % %#ok<*AGROW> % defaults if nargin < 4, verbose = 2; end if nargin < 3, name=''; end if nargin < 2 || isempty(tau), tau=2.^(-10:10); end if isfield(data,'rate') && isempty(data.rate), data.rate=0; end % v2.1 % Formatting for plots FontName = 'Arial'; FontSize = 14; plotlinewidth=2; if verbose >= 1, fprintf(1,'allan_overlap: %s ',versionstr); end %% Data consistency checks v2.1 if ~(isfield(data,'phase') || isfield(data,'freq')) error('Either ''phase'' or ''freq'' must be present in DATA. See help file for details. [con0]'); end if isfield(data,'time') if isfield(data,'phase') && (length(data.phase) ~= length(data.time)) if isfield(data,'freq') && (length(data.freq) ~= length(data.time)) error('The time and freq vectors are not the same length. See help for details. [con2]'); else error('The time and phase vectors are not the same length. See help for details. [con1]'); end end if isfield(data,'phase') && (any(isnan(data.phase)) || any(isinf(data.phase))) error('The phase vector contains invalid elements (NaN/Inf). [con3]'); end if isfield(data,'freq') && (any(isnan(data.freq)) || any(isinf(data.freq))) error('The freq vector contains invalid elements (NaN/Inf). [con4]'); end if isfield(data,'time') && (any(isnan(data.time)) || any(isinf(data.time))) error('The time vector contains invalid elements (NaN/Inf). [con5]'); end end % sort tau vector tau=sort(tau); %% Basic statistical tests on the data set if ~isfield(data,'freq') if isfield(data,'rate') && data.rate ~= 0 data.freq=diff(data.phase).*data.rate; elseif isfield(data,'time') data.freq=diff(data.phase)./diff(data.time); end if verbose >= 1, fprintf(1,'allan_overlap: Fractional frequency data generated from phase data (M=%g). ',length(data.freq)); end end if size(data.freq,2) > size(data.freq,1), data.freq=data.freq'; end % ensure columns s.numpoints=length(data.freq); s.max=max(data.freq); s.min=min(data.freq); s.mean=mean(data.freq); s.median=median(data.freq); if isfield(data,'time') if size(data.time,2) > size(data.time,1), data.time=data.time'; end % ensure columns s.linear=polyfit(data.time(1:length(data.freq)),data.freq,1); elseif isfield(data,'rate') && data.rate ~= 0; s.linear=polyfit((1/data.rate:1/data.rate:length(data.freq)/data.rate)',data.freq,1); else error('Either "time" or "rate" must be present in DATA. Type "help allan_overlap" for details. [err1]'); end s.std=std(data.freq); if verbose >= 2 fprintf(1,'allan_overlap: fractional frequency data statistics: '); disp(s); end % scale to median for plotting medianfreq=data.freq-s.median; sm=[]; sme=[]; % Screen for outliers using 5x Median Absolute Deviation (MAD) criteria MAD = median(abs(medianfreq)/0.6745); if verbose >= 1 && any(abs(medianfreq) > 5*MAD) fprintf(1, 'allan_overlap: NOTE: There appear to be outliers in the frequency data. See plot. '); end %%%% % There are four cases, freq or phase data, using timestamps or rate: %% Fixed Sample Rate Data % If there is a regular interval between measurements, calculation is much % easier/faster if isfield(data,'rate') && data.rate > 0 % if data rate was given if verbose >= 1 fprintf(1, 'allan_overlap: regular data '); if isfield(data,'freq') fprintf(1, '(%g freq data points @ %g Hz) ',length(data.freq),data.rate); elseif isfield(data,'phase') fprintf(1, '(%g phase data points @ %g Hz) ',length(data.phase),data.rate); else error(' phase or freq data missing [err10]'); end end % string for plot title name=[name ' (' num2str(data.rate) ' Hz)']; % what is the time interval between data points? tmstep = 1/data.rate; % Is there time data? Just for curiosity/plotting, does not impact calculation if isfield(data,'time') % adjust time data to remove any starting gap; first time step % should not be zero for comparison with freq data dtime=data.time-data.time(1)+mean(diff(data.time)); dtime=dtime(1:length(medianfreq)); % equalize the data vector lengths for plotting (v2.1) if verbose >= 2 fprintf(1,'allan_overlap: End of timestamp data: %g sec. ',dtime(end)); if (data.rate - 1/mean(diff(dtime))) > 1e-6 fprintf(1,'allan_overlap: NOTE: data.rate (%f Hz) does not match average timestamped sample rate (%f Hz) ',data.rate,1/mean(diff(dtime))); end end else % create time axis data using rate (for plotting only) dtime=(tmstep:tmstep:length(data.freq)*tmstep); end % is phase data present? If not, generate it if ~isfield(data,'phase') nfreq=data.freq-s.mean; dphase=zeros(1,length(nfreq)+1); dphase(2:end) = cumsum(nfreq)./data.rate; if verbose >= 1, fprintf(1,'allan_overlap: phase data generated from fractional frequency data (N=%g). ',length(dphase)); end else dphase=data.phase; end % check the range of tau values and truncate if necessary % find halfway point of time record halftime = round(tmstep*length(data.freq)/2); % truncate tau to appropriate values tau = tau(tau >= tmstep & tau <= halftime); if verbose >= 2, fprintf(1, 'allan_overlap: allowable tau range: %g to %g sec. (1/rate to total_time/2) ',tmstep,halftime); end % number of samples N=length(dphase); % number of samples per tau period m = data.rate.*tau; % only integer values allowed for m (no fractional groups of points) %tau = tau(m-round(m)<1e-8); % numerical precision issues (v2.1) tau = tau(m==round(m)); % The round() test is only correct for values < 2^53 %m = m(m-round(m)<1e-8); % change to round(m) for integer test v2.22 m = m(m==round(m)); %m=round(m); %fprintf(1,'m: %.50f ',m) if verbose >= 1, fprintf(1,'allan_overlap: calculating overlapping Allan deviation... '); end % calculate the Allan deviation for each value of tau k=0; tic; for i = tau k=k+1; if verbose >= 2, fprintf(1,'%d ',i); end % pad phase data set length to an even multiple of this tau value mphase=zeros(ceil(length(dphase)./m(k))*m(k),1); mphase(1:N)=dphase; % group phase values mp=reshape(mphase,m(k),[]); % compute second differences of phase values (x_k+m - x_k) md1=diff(mp,1,2); md2=diff(md1,1,2); md1=reshape(md2,1,[]); % compute overlapping ADEV from phase values % only the first N-2*m(k) samples are valid sm(k)=sqrt((1/(2*(N-2*m(k))*i^2))*sum(md1(1:N-2*m(k)).^2)); % estimate error bars sme(k)=sm(k)/sqrt(N-2*m(k)); end % repeat for each value of tau if verbose >= 2, fprintf(1,' '); end calctime=toc; if verbose >= 2, fprintf(1,'allan_overlap: Elapsed time for calculation: %g seconds ',calctime); end %% Irregular data, no fixed interval elseif isfield(data,'time') % the interval between measurements is irregular % so we must group the data by time if verbose >= 1, fprintf(1, 'allan_overlap: irregular rate data (no fixed sample rate) '); end % string for plot title name=[name ' (timestamp)']; % adjust time to remove any starting offset dtime=data.time-data.time(1)+mean(diff(data.time)); % save the freq data for the loop dfreq=data.freq; dtime=dtime(1:length(dfreq)); dfdtime=diff(dtime); % only need to do this once (v2.1) % where is the maximum gap in time record? gap_pos=find(dfdtime==max(dfdtime)); % what is average data spacing? avg_gap = mean(dfdtime); s.avg_rate = 1/avg_gap; % save avg rate for user (v2.1) if verbose >= 2 fprintf(1, 'allan_overlap: WARNING: irregular timestamp data (no fixed sample rate). '); fprintf(1, ' Calculation time may be long and the results subject to interpretation. '); fprintf(1, ' You are advised to estimate using an average sample rate (%g Hz) instead of timestamps. ',1/avg_gap); fprintf(1, ' Continue at your own risk! (press any key to continue) '); pause; end if verbose >= 1 fprintf(1, 'allan_overlap: End of timestamp data: %g sec ',dtime(end)); fprintf(1, ' Average rate: %g Hz (%g sec/measurement) ',1/avg_gap,avg_gap); if max(diff(dtime)) ~= 1/mean(diff(dtime)) fprintf(1, ' Max. gap in time record: %g sec at position %d ',max(dfdtime),gap_pos(1)); end if max(diff(dtime)) > 5*avg_gap fprintf(1, ' WARNING: Max. gap in time record is suspiciously large (>5x the average interval). '); end end % find halfway point halftime = fix(dtime(end)/2); % truncate tau to appropriate values tau = tau(tau >= max(dfdtime) & tau <= halftime); if isempty(tau) error('allan_overlap: ERROR: no appropriate tau values (> %g s, < %g s) ',max(dfdtime),halftime); end % number of samples M=length(dfreq); % number of samples per tau period m=round(tau./avg_gap); if verbose >= 1, fprintf(1,'allan_overlap: calculating overlapping Allan deviation... '); end k=0; tic; for i = tau k=k+1; fa=[]; if verbose >= 2, fprintf(1,'%d ',i); end freq = dfreq; time = dtime; % compute overlapping samples (y_k) for this tau %for j = 1:i for j = 1:m(k) % (v2.1) km=0; %fprintf(1,'j: %d ',j); % (v2.1) truncating not correct for overlapping samples % truncate data set to an even multiple of this tau value %freq = freq(time <= time(end)-rem(time(end),i)); %time = time(time <= time(end)-rem(time(end),i)); % break up the data into overlapping groups of tau length while i*km <= time(end) km=km+1; %i*km % progress bar if verbose >= 2 if rem(km,100)==0, fprintf(1,'.'); end if rem(km,1000)==0, fprintf(1,'%g/%g ',km,round(time(end)/i)); end end f = freq(i*(km-1) < (time) & (time) <= i*km); if ~isempty(f) fa(j,km)=mean(f); else fa(j,km)=0; end end %fa % shift data vector by -1 and repeat freq=circshift(dfreq,(size(freq)>1)*-j); freq(end-j+1:end)=[]; time=circshift(dtime,(size(time)>1)*-j); time(end-j+1:end)=[]; time=time-time(1)+avg_gap; % remove time offset end % compute second differences of fractional frequency values (y_k+m - y_k) fd1=diff(fa,1,2); fd1=reshape(fd1,1,[]); % compute overlapping ADEV from fractional frequency values % only the first M-2*m(k)+1 samples are valid if length(fd1) >= M-2*m(k)+1 sm(k)=sqrt((1/(2*(M-2*m(k)+1)))*sum(fd1(1:M-2*m(k)+1).^2)); % estimate error bars sme(k)=sm(k)/sqrt(M+1); if verbose >= 2, fprintf(1,' '); end else if verbose >=2, fprintf(1,' tau=%g dropped due to timestamp irregularities ',tau(k)); end sm(k)=0; sme(k)=0; end end if verbose >= 2, fprintf(1,' '); end calctime=toc; if verbose >= 1, fprintf(1,'allan_overlap: Elapsed time for calculation: %g seconds ',calctime); end % remove any points that were dropped tau(sm==0)=[]; sm(sm==0)=[]; sme(sme==0)=[]; else error('allan_overlap: WARNING: no DATA.rate or DATA.time! Type "help allan" for more information. [err2]'); end %%%%%%%% %% Plotting if verbose >= 2 % show all data % plot the frequency data, centered on median if size(dtime,2) > size(dtime,1), dtime=dtime'; end % this should not be necessary, but dsplot 1.1 is a little bit brittle try % dsplot makes a new figure hd=dsplot(dtime,medianfreq); catch ME figure; hd=plot(dtime,medianfreq); if verbose >= 1, fprintf(1,'allan_overlap: Note: Install dsplot.m for improved plotting of large data sets (File Exchange File ID: #15850). '); end if verbose >= 2, fprintf(1,' (Message: %s) ',ME.message); end end set(hd,'Marker','.','LineStyle','none','Color','b'); % equivalent to '.-' hold on; fx = xlim; % plot([fx(1) fx(2)],[s.median s.median],'-k'); plot([fx(1) fx(2)],[0 0],':k'); % show 5x Median Absolute deviation (MAD) values hm=plot([fx(1) fx(2)],[5*MAD 5*MAD],'-r'); plot([fx(1) fx(2)],[-5*MAD -5*MAD],'-r'); % show linear fit line hf=plot(xlim,polyval(s.linear,xlim)-s.median,'-g'); title(['Data: ' name],'FontSize',FontSize+2,'FontName','Arial'); %set(get(gca,'Title'),'Interpreter','none'); xlabel('Time [sec]','FontSize',FontSize,'FontName',FontName); if isfield(data,'units') ylabel(['data - median(data) [' data.units ']'],'FontSize',FontSize,'FontName',FontName); else ylabel('freq - median(freq)','FontSize',FontSize,'FontName',FontName); end set(gca,'FontSize',FontSize,'FontName',FontName); legend([hd hm hf],{'data (centered on median)','5x MAD outliers',['Linear Fit (' num2str(s.linear(1),'%g') ')']},'FontSize',max(10,FontSize-2)); % tighten up xlim([dtime(1) dtime(end)]); end % end plot raw data if verbose >= 1 % show analysis results % plot Allan deviation results if ~isempty(sm) figure % Choose loglog or semilogx plot here #PLOTLOG %semilogx(tau,sm,'.-b','LineWidth',plotlinewidth,'MarkerSize',24); loglog(tau,sm,'.-b','LineWidth',plotlinewidth,'MarkerSize',24); % in R14SP3, there is a bug that screws up the error bars on a semilog plot. % When this is fixed, uncomment below to use normal errorbars %errorbar(tau,sm,sme,'.-b'); set(gca,'XScale','log'); % this is a hack to approximate the error bars hold on; plot([tau; tau],[sm+sme; sm-sme],'-k','LineWidth',max(plotlinewidth-1,2)); grid on; title(['Overlapping Allan Deviation: ' name],'FontSize',FontSize+2,'FontName',FontName); %set(get(gca,'Title'),'Interpreter','none'); xlabel('\tau [sec]','FontSize',FontSize,'FontName','Arial'); ylabel(' Overlapping \sigma_y(\tau)','FontSize',FontSize,'FontName',FontName); set(gca,'FontSize',FontSize,'FontName',FontName); % expand the x axis a little bit so that the errors bars look nice adax = axis; axis([adax(1)*0.9 adax(2)*1.1 adax(3) adax(4)]); % display the minimum value fprintf(1,'allan: Minimum overlapping ADEV value: %g at tau = %g seconds ',min(sm),tau(sm==min(sm))); elseif verbose >= 1 fprintf(1,'allan_overlap: WARNING: no values calculated. '); fprintf(1,' Check that TAU > 1/DATA.rate and TAU values are divisible by 1/DATA.rate '); fprintf(1,'Type "help allan_overlap" for more information. '); end end % end plot analysis retval = sm; errorb = sme; return |