Mercurial > hg > ltpda
comparison m-toolbox/html_help/help/ug/sigproc_psd_content.html @ 0:f0afece42f48
Import.
| author | Daniele Nicolodi <nicolodi@science.unitn.it> |
|---|---|
| date | Wed, 23 Nov 2011 19:22:13 +0100 |
| parents | |
| children |
comparison
equal
deleted
inserted
replaced
| -1:000000000000 | 0:f0afece42f48 |
|---|---|
| 1 <h2>Description</h2> | |
| 2 <p> | |
| 3 The LTPDA method <a href="matlab:doc('ao/psd')">ao/psd</a> estimates the power spectral density of time-series | |
| 4 signals, included in the input <tt>ao</tt>s following the Welch's averaged, modified periodogram method <a href="#references">[1]</a>. | |
| 5 Data are windowed prior to the estimation of the spectrum, by multiplying | |
| 6 it with a <a href="specwin.html">spectral window object</a>, and can be detrended by a polinomial of time in order to reduce the impact | |
| 7 of the border discontinuities. The window length is adjustable to shorter lenghts to reduce the spectral | |
| 8 density uncertainties, and the percentage of subsequent window overlap can be adjusted as well. The detrending is | |
| 9 performed on the individual windows. The user can choose the quantity being given in output among | |
| 10 ASD (amplitude spectral density), PSD (power spectral density), AS (amplitude spectrum), and PS (power spectrum). | |
| 11 <br> | |
| 12 <br> | |
| 13 <h2>Syntax</h2> | |
| 14 </p> | |
| 15 <div class="fragment"><pre> | |
| 16 <br> bs = psd(a1, a2, a3, ..., pl) | |
| 17 bs = psd(as, pl) | |
| 18 bs = as.psd(pl) | |
| 19 </pre> </div> | |
| 20 <p> | |
| 21 <tt>a1</tt>, <tt>a2</tt>, <tt>a3</tt>, ... are <tt>ao</tt>(s) containing the input time series to be evaluated. <tt>bs</tt> includes | |
| 22 the output object(s) and <tt>pl</tt> is an optional parameter list. | |
| 23 </p> | |
| 24 <h2>Parameters</h2> | |
| 25 <p> | |
| 26 The parameter list <tt>pl</tt> includes the following parameters: | |
| 27 </p> | |
| 28 <ul> | |
| 29 <li> <tt>'Nfft'</tt> - number of samples in each fft [default: length of input data] | |
| 30 A string value containing the variable 'fs' can | |
| 31 also be used, e.g., plist('Nfft', '2*fs') </li> | |
| 32 <li> <tt>'Win'</tt> - the window to be applied to the data to remove the | |
| 33 discontinuities at edges of segments. [default: taken from user prefs].<br> | |
| 34 The window is described by a string with its name and, only in the case of Kaiser window, | |
| 35 the additional parameter <tt>'psll'</tt>. <br>For instance: plist('Win', 'Kaiser', 'psll', 200). </li> | |
| 36 </li> | |
| 37 <li> <tt>'Olap'</tt> - segment percent overlap [default: -1, (taken from window function)] </li> | |
| 38 <li> <tt>'Scale'</tt> - scaling of output. Choose from: <ul> | |
| 39 <li> 'ASD' - amplitude spectral density </li> | |
| 40 <li> 'PSD' - power spectral density [default] </li> | |
| 41 <li> 'AS' - amplitude spectrum </li> | |
| 42 <li> 'PS' - power spectrum </li> </ul> </li> | |
| 43 <li> <tt>'Order'</tt> - order of segment detrending <ul> | |
| 44 <li> -1 - no detrending </li> | |
| 45 <li> 0 - subtract mean [default] </li> | |
| 46 <li> 1 - subtract linear fit </li> | |
| 47 <li> N - subtract fit of polynomial, order N </li> </ul> </li> | |
| 48 <li><tt>'Navs'</tt> - number of averages. If set, and if Nfft was set to 0 or -1, the number of points for each window will be calculated to match the request. [default: -1, not set] </li> | |
| 49 <li><tt>'Times'</tt> - interval of time to evaluate the calculation on. If empty [default], it will take the whole section.</li> | |
| 50 </ul> | |
| 51 <p> | |
| 52 The length of the window is set by the value of the parameter <tt>'Nfft'</tt>, so that the window | |
| 53 is actually built using only the key features of the window: the name and, for Kaiser windows, the psll. | |
| 54 </p> | |
| 55 <p>As an alternative to setting the number of points <tt>'Nfft'</tt> in each window, it's possible to ask for a given number of PSD estimates by setting the <tt>'Navs'</tt> parameter, and the algorithm takes care of calculating the correct window length, according to the amount of overlap between subsequent segments.</p> | |
| 56 <p> | |
| 57 <table cellspacing="0" class="note" summary="Note" cellpadding="5" border="1"> | |
| 58 <tr width="90%"> | |
| 59 <td> | |
| 60 If the user doesn't specify the value of a given parameter, the default value is used. | |
| 61 </td> | |
| 62 </tr> | |
| 63 </table> | |
| 64 </p> | |
| 65 <h2>Algorithm</h2> | |
| 66 <p> | |
| 67 The algorithm is based in standard MATLAB's tools, as the ones used by <a href="matlab:doc('pwelch')">pwelch</a>. However, in order to | |
| 68 compute the standard deviation of the mean for each frequency bin, the averaging of the different segments is performed using Welford's | |
| 69 algorithm <a href="#references">[2]</a> which allows to compute mean and variance in one loop. | |
| 70 </p> | |
| 71 <h2>Examples</h2> | |
| 72 <p> | |
| 73 1. Evaluation of the PSD of a time-series represented by a low frequency sinewave signal, superimposed to | |
| 74 white noise. Comparison of the effect of windowing on the estimate of the white noise level and | |
| 75 on resolving the signal. | |
| 76 </p> | |
| 77 <div class="fragment"><pre> | |
| 78 <br> <span class="comment">% create two AOs</span> | |
| 79 x1 = ao(plist(<span class="string">'waveform'</span>,<span class="string">'sine wave'</span>,<span class="string">'f'</span>,0.1,<span class="string">'A'</span>,1,<span class="string">'nsecs'</span>,1000,<span class="string">'fs'</span>,10)); | |
| 80 x2 = ao(plist(<span class="string">'waveform'</span>,<span class="string">'noise'</span>,<span class="string">'type'</span>,<span class="string">'normal'</span>,<span class="string">'nsecs'</span>,1000,<span class="string">'fs'</span>,10)); | |
| 81 <span class="comment">% add both AOs</span> | |
| 82 x = x1 + x2; | |
| 83 <span class="comment">% compute the psd changing the 'nfft'</span> | |
| 84 y_lf = psd(x); | |
| 85 y_hf = psd(x,plist(<span class="string">'nfft'</span>,1000)); | |
| 86 <span class="comment">% compare </span> | |
| 87 iplot(y_lf, y_hf) | |
| 88 </pre></div> | |
| 89 | |
| 90 <img src="images/psd_1.png" alt="" border="3"> | |
| 91 | |
| 92 <p> | |
| 93 2. Evaluation of the PSD of a time-series represented by a low frequency sinewave signal, superimposed to | |
| 94 white noise and to a low frequency linear drift. In the example, the same spectrum is computed with different | |
| 95 spectral windows. | |
| 96 </p> | |
| 97 <div class="fragment"><pre> | |
| 98 <br> <span class="comment">% create three AOs</span> | |
| 99 x1 = ao(plist(<span class="string">'waveform'</span>,<span class="string">'sine wave'</span>,<span class="string">'f'</span>,0.1,<span class="string">'A'</span>,1,<span class="string">'nsecs'</span>,1000,<span class="string">'fs'</span>,10,<span class="string">'yunits'</span>,<span class="string">'m'</span>)); | |
| 100 x2 = ao(plist(<span class="string">'waveform'</span>,<span class="string">'noise'</span>,<span class="string">'type'</span>,<span class="string">'normal'</span>,<span class="string">'nsecs'</span>,1000,<span class="string">'fs'</span>,10,<span class="string">'yunits'</span>,<span class="string">'m'</span>)); | |
| 101 x3 = ao(plist(<span class="string">'tsfcn'</span>, <span class="string">'t.^2 + t'</span>,<span class="string">'nsecs'</span>,1000,<span class="string">'fs'</span>,10,<span class="string">'yunits'</span>,<span class="string">'m'</span>)); | |
| 102 <span class="comment">% add them</span> | |
| 103 x = x1 + x2 + x3; | |
| 104 <span class="comment">% compute psd with different windows</span> | |
| 105 y_1 = psd(x,plist(<span class="string">'scale'</span>,<span class="string">'ASD'</span>,<span class="string">'order'</span>,1,<span class="string">'win'</span>,<span class="string">'BH92'</span>)); | |
| 106 y_2 = psd(x,plist(<span class="string">'scale'</span>,<span class="string">'ASD'</span>,<span class="string">'order'</span>,2,<span class="string">'win'</span>,<span class="string">'Hamming'</span>)); | |
| 107 y_3 = psd(x,plist(<span class="string">'scale'</span>,<span class="string">'ASD'</span>,<span class="string">'order'</span>,2,<span class="string">'win'</span>,<span class="string">'Kaiser'</span>,<span class="string">'psll'</span>,200)); | |
| 108 <span class="comment">% compare</span> | |
| 109 iplot(y_1, y_2, y_3); | |
| 110 </pre></div> | |
| 111 <p> | |
| 112 <img src="images/psd_2.png" alt="" border="3"> | |
| 113 </p> | |
| 114 <h2><a name="references">References</a></h2> | |
| 115 | |
| 116 <ol> | |
| 117 <li> P.D. Welch, The Use of Fast Fourier Transform for the Estimation of Power Spectra: A Method Based on Time Averaging Over Short, | |
| 118 Modified Periodograms, <i>IEEE Trans. on Audio and Electroacoustics</i>, Vol. 15, No. 2 (1967), pp. 70 - 73.</a></li> | |
| 119 <li> B. P. Weldford, Note on a Method for Calculating Corrected Sums of Squares and Products, | |
| 120 <i>Technometrics<i>, Vol. 4, No. 3 (1962), pp 419 - 420.</li> | |
| 121 </ol> | |
| 122 |