diff options
Diffstat (limited to 'help/en_US/scilab_en_US_help/section_cc2bc01c47967d47fcf3507a91d572ba.html')
-rw-r--r-- | help/en_US/scilab_en_US_help/section_cc2bc01c47967d47fcf3507a91d572ba.html | 1207 |
1 files changed, 0 insertions, 1207 deletions
diff --git a/help/en_US/scilab_en_US_help/section_cc2bc01c47967d47fcf3507a91d572ba.html b/help/en_US/scilab_en_US_help/section_cc2bc01c47967d47fcf3507a91d572ba.html deleted file mode 100644 index 9284e0b..0000000 --- a/help/en_US/scilab_en_US_help/section_cc2bc01c47967d47fcf3507a91d572ba.html +++ /dev/null @@ -1,1207 +0,0 @@ -<html><head> - <meta http-equiv="Content-Type" content="text/html; charset=utf-8"> - <title></title> - <style type="text/css" media="all"> - @import url("scilab_code.css"); - @import url("xml_code.css"); - @import url("c_code.css"); - @import url("style.css"); - </style> - </head> - <body> - <div class="manualnavbar"> - <table width="100%"><tr> - <td width="30%"> - - </td> - <td width="40%" class="center"> - <span class="top"><a href="index.html">FOSSEE Signal Processing Toolbox</a></span> - - </td> - <td width="30%" class="next"> - - </td> - </tr></table> - <hr /> - </div> - - - - <span class="path"><a href="index.html">FOSSEE Signal Processing Toolbox</a> >> FOSSEE Signal Processing Toolbox</span> - - <br /><br /> - <h3 class="title-part">FOSSEE Signal Processing Toolbox</h3> -<ul class="list-chapter"><li><a href="ac2poly.html" class="refentry">ac2poly</a> — <span class="refentry-description">Convert autocorrelation sequence to polynomial of prediction filter</span></li> - - - - - -<li><a href="ac2rc.html" class="refentry">ac2rc</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="arParEst.html" class="refentry">arParEst</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="arburg.html" class="refentry">arburg</a> — <span class="refentry-description">This function calculates coefficients of an autoregressive (AR) model of complex data.</span></li> - - - - - -<li><a href="arcov.html" class="refentry">arcov</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="armcov.html" class="refentry">armcov</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="aryule.html" class="refentry">aryule</a> — <span class="refentry-description">This function fits an AR (p)-model with Yule-Walker estimates.</span></li> - - - - - -<li><a href="barthannwin.html" class="refentry">barthannwin</a> — <span class="refentry-description">This function returns the filter coefficients of a modified Bartlett-Hann window.</span></li> - - - - - -<li><a href="bartlett.html" class="refentry">bartlett</a> — <span class="refentry-description">Generates a Bartlett window</span></li> - - - - - -<li><a href="besself.html" class="refentry">besself</a> — <span class="refentry-description">This function generates a Bessel filter.</span></li> - - - - - -<li><a href="bitrevorder.html" class="refentry">bitrevorder</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="blackman.html" class="refentry">blackman</a> — <span class="refentry-description">Generates a Blackman window</span></li> - - - - - -<li><a href="blackmanharris.html" class="refentry">blackmanharris</a> — <span class="refentry-description">This function returns the filter coefficients of a Blackman-Harris window.</span></li> - - - - - -<li><a href="blackmannuttall.html" class="refentry">blackmannuttall</a> — <span class="refentry-description">This function returns the filter coefficients of a Blackman-Nuttall window.</span></li> - - - - - -<li><a href="bohmanwin.html" class="refentry">bohmanwin</a> — <span class="refentry-description">This function returns the filter coefficients of a Bohman window.</span></li> - - - - - -<li><a href="boxcar.html" class="refentry">boxcar</a> — <span class="refentry-description">This function returns the filter coefficients of a rectangular window.</span></li> - - - - - -<li><a href="buffer.html" class="refentry">buffer</a> — <span class="refentry-description">This function buffers the given data into a matrix of signal frames</span></li> - - - - - -<li><a href="butter.html" class="refentry">butter</a> — <span class="refentry-description">This function generates a Butterworth filter.</span></li> - - - - - -<li><a href="buttord.html" class="refentry">buttord</a> — <span class="refentry-description">/This function computes the minimum filter order of a Butterworth filter with the desired response characteristics.</span></li> - - - - - -<li><a href="cconv.html" class="refentry">cconv</a> — <span class="refentry-description">[nargout,nargin]=argn();</span></li> - - - - - -<li><a href="cell2sos.html" class="refentry">cell2sos</a> — <span class="refentry-description">Converts a cell array to a second order section matrix</span></li> - - - - - -<li><a href="cheb1ord.html" class="refentry">cheb1ord</a> — <span class="refentry-description">This function computes the minimum filter order of a Chebyshev type I filter with the desired response characteristics.</span></li> - - - - - -<li><a href="cheb2ord.html" class="refentry">cheb2ord</a> — <span class="refentry-description">This function computes the minimum filter order of a Chebyshev type II filter with the desired response characteristics.</span></li> - - - - - -<li><a href="chebwin.html" class="refentry">chebwin</a> — <span class="refentry-description">This function returns the filter coefficients of a Dolph-Chebyshev window.</span></li> - - - - - -<li><a href="cheby1.html" class="refentry">cheby1</a> — <span class="refentry-description">This function generates a Chebyshev type I filter with rp dB of passband ripple.</span></li> - - - - - -<li><a href="cheby2.html" class="refentry">cheby2</a> — <span class="refentry-description">This function generates a Chebyshev type II filter with rs dB of stopband attenuation.</span></li> - - - - - -<li><a href="check.html" class="refentry">check</a> — <span class="refentry-description">funcprot(0);</span></li> - - - - - -<li><a href="chirp.html" class="refentry">chirp</a> — <span class="refentry-description">This function evaluates a chirp signal at time t.</span></li> - - - - - -<li><a href="clustersegment.html" class="refentry">clustersegment</a> — <span class="refentry-description">This function calculates boundary indexes of clusters of 1’s.</span></li> - - - - - -<li><a href="cmorwavf.html" class="refentry">cmorwavf</a> — <span class="refentry-description">funcprot(0);</span></li> - - - - - -<li><a href="convmtx.html" class="refentry">convmtx</a> — <span class="refentry-description">n=double(n);</span></li> - - - - - -<li><a href="corrmtx.html" class="refentry">corrmtx</a> — <span class="refentry-description">Generate data matrix for autocorrelation matrix estimation</span></li> - - - - - -<li><a href="cummax.html" class="refentry">cummax</a> — <span class="refentry-description">Cumulative maximum</span></li> - - - - - -<li><a href="cummin.html" class="refentry">cummin</a> — <span class="refentry-description">Cumulative minimum</span></li> - - - - - -<li><a href="db.html" class="refentry">db</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="db2pow.html" class="refentry">db2pow</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="dctmtx.html" class="refentry">dctmtx</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="decimate.html" class="refentry">decimate</a> — <span class="refentry-description">rhs = argn(2)</span></li> - - - - - -<li><a href="dftmtx.html" class="refentry">dftmtx</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="diric.html" class="refentry">diric</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="downsample.html" class="refentry">downsample</a> — <span class="refentry-description">This function downsamples the signal by selecting every nth element.</span></li> - - - - - -<li><a href="dutycycle.html" class="refentry">dutycycle</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="ellip.html" class="refentry">ellip</a> — <span class="refentry-description">This function generates an elliptic or Cauer filter with rp dB of passband ripple and rs dB of stopband attenuation.</span></li> - - - - - -<li><a href="ellipord.html" class="refentry">ellipord</a> — <span class="refentry-description">This function computes the minimum filter order of an elliptic filter with the desired response characteristics.</span></li> - - - - - -<li><a href="enbw.html" class="refentry">enbw</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="eqtflength.html" class="refentry">eqtflength</a> — <span class="refentry-description">Modifies the input vector to give output vectors of the same length</span></li> - - - - - -<li><a href="falltime.html" class="refentry">falltime</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="fftfilt.html" class="refentry">fftfilt</a> — <span class="refentry-description">Performs FFT-based FIR filtering using overlap-add method</span></li> - - - - - -<li><a href="filternorm.html" class="refentry">filternorm</a> — <span class="refentry-description">Calculates the L-2 norm or L-infinity norm of a digital filter</span></li> - - - - - -<li><a href="filtfilt.html" class="refentry">filtfilt</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="filtic.html" class="refentry">filtic</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="filtord.html" class="refentry">filtord</a> — <span class="refentry-description">and denominator coefficients, a.</span></li> - - - - - -<li><a href="firpmord.html" class="refentry">firpmord</a> — <span class="refentry-description">Parks-McClennan optimal FIR filter order estimation</span></li> - - - - - -<li><a href="firtype.html" class="refentry">firtype</a> — <span class="refentry-description">if (type(b)~=1) then</span></li> - - - - - -<li><a href="flattopwin.html" class="refentry">flattopwin</a> — <span class="refentry-description">This function returns the filter coefficients of a Flat Top window.</span></li> - - - - - -<li><a href="fracshift.html" class="refentry">fracshift</a> — <span class="refentry-description">This function shifts the series x supplied as input argument by a number of samples d.</span></li> - - - - - -<li><a href="fwhm.html" class="refentry">fwhm</a> — <span class="refentry-description">This function computes peak full width at half minimum or at another level of peak minimum for vector or matrix data y supplied as input.</span></li> - - - - - -<li><a href="fwhmjlt.html" class="refentry">fwhmjlt</a> — <span class="refentry-description">rhs = argn(2)</span></li> - - - - - -<li><a href="gauspuls.html" class="refentry">gauspuls</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="gaussdesign.html" class="refentry">gaussdesign</a> — <span class="refentry-description">GAUSSDESIGN designs a Gaussian pulse-shaping filter which is a low pass FIR</span></li> - - - - - -<li><a href="gaussian.html" class="refentry">gaussian</a> — <span class="refentry-description">This function returns a Gaussian convolution window.</span></li> - - - - - -<li><a href="gausswin.html" class="refentry">gausswin</a> — <span class="refentry-description">This function returns the filter coefficients of a Gaussian window.</span></li> - - - - - -<li><a href="gmonopuls.html" class="refentry">gmonopuls</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="goertzel.html" class="refentry">goertzel</a> — <span class="refentry-description">Computes DFT using the second order Goertzel Algorithm</span></li> - - - - - -<li><a href="grpdelay.html" class="refentry">grpdelay</a> — <span class="refentry-description">This function computes the group delay of a filter.</span></li> - - - - - -<li><a href="hann.html" class="refentry">hann</a> — <span class="refentry-description">This function returns the filter coefficients of a Hanning window.</span></li> - - - - - -<li><a href="helperHarmonicDistortionAmplifier.html" class="refentry">helperHarmonicDistortionAmplifier</a> — <span class="refentry-description">helperHarmonicDistortionADC Helper function for HarmonicDistortionExample.m</span></li> - - - - - -<li><a href="icceps.html" class="refentry">icceps</a> — <span class="refentry-description">ICCEPS computes the inverse cepstrum of a real-valued input. This spectrum</span></li> - - - - - -<li><a href="iirlp2mb.html" class="refentry">iirlp2mb</a> — <span class="refentry-description">This function does IIR Low Pass Filter to Multiband Filter Transformation.</span></li> - - - - - -<li><a href="impinvar.html" class="refentry">impinvar</a> — <span class="refentry-description">This function converts analog filter with coefficients b and a to digital, conserving impulse response.</span></li> - - - - - -<li><a href="impz.html" class="refentry">impz</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="impzlength.html" class="refentry">impzlength</a> — <span class="refentry-description">Impulse response length</span></li> - - - - - -<li><a href="interp.html" class="refentry">interp</a> — <span class="refentry-description">function y = interp(x, q, n, Wc)</span></li> - - - - - -<li><a href="intfilt.html" class="refentry">intfilt</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="invimpinvar.html" class="refentry">invimpinvar</a> — <span class="refentry-description">This function converts digital filter with coefficients b and a to analog, conserving impulse response.</span></li> - - - - - -<li><a href="is2rc.html" class="refentry">is2rc</a> — <span class="refentry-description">Convert inverse sine parameters to reflection coefficients</span></li> - - - - - -<li><a href="isallpass.html" class="refentry">isallpass</a> — <span class="refentry-description">[nargout,nargin]=argn();</span></li> - - - - - -<li><a href="isfir.html" class="refentry">isfir</a> — <span class="refentry-description">[nargout,nargin]=argn();</span></li> - - - - - -<li><a href="islinphase.html" class="refentry">islinphase</a> — <span class="refentry-description">[nargout,nargin]=argn();</span></li> - - - - - -<li><a href="ismaxphase.html" class="refentry">ismaxphase</a> — <span class="refentry-description">[nargout,nargin]=argn();</span></li> - - - - - -<li><a href="isminphase.html" class="refentry">isminphase</a> — <span class="refentry-description">[nargout,nargin]=argn();</span></li> - - - - - -<li><a href="isstable.html" class="refentry">isstable</a> — <span class="refentry-description">SOS matrix corresponds to [bi(1) bi(2) bi(3) ai(1) ai(2) ai(3)].</span></li> - - - - - -<li><a href="kaiser.html" class="refentry">kaiser</a> — <span class="refentry-description">This function returns the filter coefficients of a Kaiser window.</span></li> - - - - - -<li><a href="lar2rc.html" class="refentry">lar2rc</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="latc2tf.html" class="refentry">latc2tf</a> — <span class="refentry-description">Convert lattice filter parameters to transfer function coefficients</span></li> - - - - - -<li><a href="latcfilt.html" class="refentry">latcfilt</a> — <span class="refentry-description">function [f,g,zo]=latcfilt(k,x,v,zi,dim)</span></li> - - - - - -<li><a href="latcfilt1.html" class="refentry">latcfilt1</a> — <span class="refentry-description">function [f,g,zo]=latcfilt1(k,v,x,zi)</span></li> - - - - - -<li><a href="levdown.html" class="refentry">levdown</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="levin.html" class="refentry">levin</a> — <span class="refentry-description">[ar,sigma2,rc]=lev(r)</span></li> - - - - - -<li><a href="levinson.html" class="refentry">levinson</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="lpc.html" class="refentry">lpc</a> — <span class="refentry-description">Linear prediction filter coefficients</span></li> - - - - - -<li><a href="lsf2poly.html" class="refentry">lsf2poly</a> — <span class="refentry-description">lsf2poly function convert line spectral frequencies to prediction polynomial.</span></li> - - - - - -<li><a href="mag2db.html" class="refentry">mag2db</a> — <span class="refentry-description">funcprot(0);</span></li> - - - - - -<li><a href="marcumq.html" class="refentry">marcumq</a> — <span class="refentry-description">This function computes the generalized Marcum Q function of order m with noncentrality parameter a and argument b.</span></li> - - - - - -<li><a href="medfilt1.html" class="refentry">medfilt1</a> — <span class="refentry-description">1D median filtering</span></li> - - - - - -<li><a href="mexihat.html" class="refentry">mexihat</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="meyeraux.html" class="refentry">meyeraux</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="midcross.html" class="refentry">midcross</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="modulate.html" class="refentry">modulate</a> — <span class="refentry-description">Modulates signal according to the modulation method</span></li> - - - - - -<li><a href="morlet.html" class="refentry">morlet</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="movingrms.html" class="refentry">movingrms</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="musicBase.html" class="refentry">musicBase</a> — <span class="refentry-description">Implements the core of the MUSIC algorithm</span></li> - - - - - -<li><a href="nnls.html" class="refentry">nnls</a> — <span class="refentry-description">Non Negative Least Squares (nnls) for Ex=f with the constraint x>=0</span></li> - - - - - -<li><a href="nuttallwin.html" class="refentry">nuttallwin</a> — <span class="refentry-description">This function returns the filter coefficients of a Blackman-Harris window.</span></li> - - - - - -<li><a href="parzenwin.html" class="refentry">parzenwin</a> — <span class="refentry-description">This function returns the filter coefficients of a Parzen window.</span></li> - - - - - -<li><a href="pchip.html" class="refentry">pchip</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="pchips.html" class="refentry">pchips</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="peak2peak.html" class="refentry">peak2peak</a> — <span class="refentry-description">funcprot(0);</span></li> - - - - - -<li><a href="peak2rms.html" class="refentry">peak2rms</a> — <span class="refentry-description">This function calculates the ratio of peak magnitude to the Root Mean Square(RMS) value.</span></li> - - - - - -<li><a href="peig.html" class="refentry">peig</a> — <span class="refentry-description">Psuedospectrum using the eigenvector method.</span></li> - - - - - -<li><a href="periodogram.html" class="refentry">periodogram</a> — <span class="refentry-description">funcprot(0);</span></li> - - - - - -<li><a href="phaseInputParseAs_ab.html" class="refentry">phaseInputParseAs_ab</a> — <span class="refentry-description">fs=0;</span></li> - - - - - -<li><a href="phaseInputParseAs_sos.html" class="refentry">phaseInputParseAs_sos</a> — <span class="refentry-description">fs=0;</span></li> - - - - - -<li><a href="phasedelay.html" class="refentry">phasedelay</a> — <span class="refentry-description">cas variable is 2 if sos form is involved and 1 if direct rational form is given</span></li> - - - - - -<li><a href="phasez.html" class="refentry">phasez</a> — <span class="refentry-description">cas variable is 2 if sos form is involved and 1 if direct rational form is given</span></li> - - - - - -<li><a href="pmusic.html" class="refentry">pmusic</a> — <span class="refentry-description">Psuedospectrum using MUSIC algorithm</span></li> - - - - - -<li><a href="poly2ac.html" class="refentry">poly2ac</a> — <span class="refentry-description">Convert prediction polynomial to autocorrelation sequence.</span></li> - - - - - -<li><a href="poly2lsf.html" class="refentry">poly2lsf</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="poly2rc.html" class="refentry">poly2rc</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="polyscale.html" class="refentry">polyscale</a> — <span class="refentry-description">errcheck1</span></li> - - - - - -<li><a href="polystab.html" class="refentry">polystab</a> — <span class="refentry-description">This function stabilizes the polynomial transfer function.</span></li> - - - - - -<li><a href="polyval.html" class="refentry">polyval</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="pow2db.html" class="refentry">pow2db</a> — <span class="refentry-description">rhs = argn(2)</span></li> - - - - - -<li><a href="primitive.html" class="refentry">primitive</a> — <span class="refentry-description">This function calculates the primitive of a given function supplied as input.</span></li> - - - - - -<li><a href="prony.html" class="refentry">prony</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="pulseperiod.html" class="refentry">pulseperiod</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="pulsesep.html" class="refentry">pulsesep</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="pulsewidth.html" class="refentry">pulsewidth</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="pulstran.html" class="refentry">pulstran</a> — <span class="refentry-description">This function generates the signal y = sum(func(t+d,...)) for each d.</span></li> - - - - - -<li><a href="rc2ac.html" class="refentry">rc2ac</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="rc2is.html" class="refentry">rc2is</a> — <span class="refentry-description">Convert reflection coefficients to inverse sine parameters</span></li> - - - - - -<li><a href="rc2lar.html" class="refentry">rc2lar</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="rc2poly.html" class="refentry">rc2poly</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="rcosdesign.html" class="refentry">rcosdesign</a> — <span class="refentry-description">RCOSDESIGN computes the raised cosine FIR filter</span></li> - - - - - -<li><a href="rectpuls.html" class="refentry">rectpuls</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="rectwin.html" class="refentry">rectwin</a> — <span class="refentry-description">This function returns the filter coefficients of a rectangular window.</span></li> - - - - - -<li><a href="resample.html" class="refentry">resample</a> — <span class="refentry-description">This function resamples in the input sequence x supplied by a factor of p/q.</span></li> - - - - - -<li><a href="residued.html" class="refentry">residued</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="residuez.html" class="refentry">residuez</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="risetime.html" class="refentry">risetime</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="rlevinson.html" class="refentry">rlevinson</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="rms.html" class="refentry">rms</a> — <span class="refentry-description">convert i/p values to their ascii values if they are of type char</span></li> - - - - - -<li><a href="rooteig.html" class="refentry">rooteig</a> — <span class="refentry-description">Frequencies and power of sinusoids using eigenvector algorithm</span></li> - - - - - -<li><a href="rootmusic.html" class="refentry">rootmusic</a> — <span class="refentry-description">Frequencies and power of sinusoids using the root MUSIC algorithm</span></li> - - - - - -<li><a href="rssq.html" class="refentry">rssq</a> — <span class="refentry-description">This function calculates the square root of the sum of values of input vector IN.</span></li> - - - - - -<li><a href="sampled2continuous.html" class="refentry">sampled2continuous</a> — <span class="refentry-description">This function calculates the output reconstructed from the samples n supplied as input, at a rate of 1/s samples per unit time.</span></li> - - - - - -<li><a href="sawtooth.html" class="refentry">sawtooth</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="schtrig.html" class="refentry">schtrig</a> — <span class="refentry-description">This function implements a multisignal Schmitt triggers with lev levels supplied as input.</span></li> - - - - - -<li><a href="schurrc.html" class="refentry">schurrc</a> — <span class="refentry-description">narginchk(1,1,argn(2));</span></li> - - - - - -<li><a href="seqperiod.html" class="refentry">seqperiod</a> — <span class="refentry-description">Calculates the period of a sequence</span></li> - - - - - -<li><a href="sgolay.html" class="refentry">sgolay</a> — <span class="refentry-description">This function computes the filter coefficients for all Savitzsky-Golay smoothing filters.</span></li> - - - - - -<li><a href="sgolayfilt.html" class="refentry">sgolayfilt</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="shanwavf.html" class="refentry">shanwavf</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="shiftdata.html" class="refentry">shiftdata</a> — <span class="refentry-description">Shifts data by rearranging dimensions</span></li> - - - - - -<li><a href="slewrate.html" class="refentry">slewrate</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="sos2cell.html" class="refentry">sos2cell</a> — <span class="refentry-description">Converts a second order section matrix to a cell array</span></li> - - - - - -<li><a href="sos2ss.html" class="refentry">sos2ss</a> — <span class="refentry-description">[nargout,nargin]=argn();</span></li> - - - - - -<li><a href="sos2tf.html" class="refentry">sos2tf</a> — <span class="refentry-description">This function converts series second-order sections to direct H(z) = B(z)/A(z) form.</span></li> - - - - - -<li><a href="sos2zp.html" class="refentry">sos2zp</a> — <span class="refentry-description">This function converts series second-order sections to zeros, poles, and gains (pole residues).</span></li> - - - - - -<li><a href="sosbreak.html" class="refentry">sosbreak</a> — <span class="refentry-description">function for breaking a polynomial in second order polynomials (and an extra linear)</span></li> - - - - - -<li><a href="sosfilt.html" class="refentry">sosfilt</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="specgram.html" class="refentry">specgram</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="ss2sos.html" class="refentry">ss2sos</a> — <span class="refentry-description">not taking if, order and scale as input since they do not seem useful</span></li> - - - - - -<li><a href="statelevels.html" class="refentry">statelevels</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="stmcb.html" class="refentry">stmcb</a> — <span class="refentry-description">function [b,a] = stmcb( x, u_in, q, p, niter, a_in )</span></li> - - - - - -<li><a href="strips.html" class="refentry">strips</a> — <span class="refentry-description">Plots vector or matrix in strips</span></li> - - - - - -<li><a href="subspaceMethodsInputParser.html" class="refentry">subspaceMethodsInputParser</a> — <span class="refentry-description">Input parser to be used by pmusic and peig</span></li> - - - - - -<li><a href="tf2sos.html" class="refentry">tf2sos</a> — <span class="refentry-description">This function converts direct-form filter coefficients to series second-order sections.</span></li> - - - - - -<li><a href="tf2zp.html" class="refentry">tf2zp</a> — <span class="refentry-description">[z,p,k]= tf2zp(b,a);</span></li> - - - - - -<li><a href="tf2zpk.html" class="refentry">tf2zpk</a> — <span class="refentry-description">form</span></li> - - - - - -<li><a href="transpose.html" class="refentry">transpose</a> — <span class="refentry-description">funcprot(0);</span></li> - - - - - -<li><a href="trial_iirlp2mb.html" class="refentry">trial_iirlp2mb</a> — <span class="refentry-description">B = varargin(1)</span></li> - - - - - -<li><a href="triang.html" class="refentry">triang</a> — <span class="refentry-description">This function returns the filter coefficients of a triangular window.</span></li> - - - - - -<li><a href="tripuls.html" class="refentry">tripuls</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="truth.html" class="refentry">truth</a> — <span class="refentry-description">y = %t</span></li> - - - - - -<li><a href="tukeywin.html" class="refentry">tukeywin</a> — <span class="refentry-description">This function returns the filter coefficients of a Tukey window.</span></li> - - - - - -<li><a href="udecode.html" class="refentry">udecode</a> — <span class="refentry-description">Decodes the input uniformly quantized values</span></li> - - - - - -<li><a href="uencode.html" class="refentry">uencode</a> — <span class="refentry-description">Performs uniform quantization of the input into 2^n levels</span></li> - - - - - -<li><a href="ultrwin.html" class="refentry">ultrwin</a> — <span class="refentry-description">This function returns the coefficients of an Ultraspherical window.</span></li> - - - - - -<li><a href="unshiftdata.html" class="refentry">unshiftdata</a> — <span class="refentry-description">Inverts the effect of shiftdata</span></li> - - - - - -<li><a href="upfirdn.html" class="refentry">upfirdn</a> — <span class="refentry-description">This function upsamples the input data, applies the FIR filter and then downsamples it.</span></li> - - - - - -<li><a href="upsample.html" class="refentry">upsample</a> — <span class="refentry-description">This function upsamples the signal, inserting n-1 zeros between every element.</span></li> - - - - - -<li><a href="upsamplefill.html" class="refentry">upsamplefill</a> — <span class="refentry-description">This function upsamples a vector interleaving given values or copies of the vector elements.</span></li> - - - - - -<li><a href="var.html" class="refentry">var</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="vco.html" class="refentry">vco</a> — <span class="refentry-description">Voltage Controlled Oscillator</span></li> - - - - - -<li><a href="welchwin.html" class="refentry">welchwin</a> — <span class="refentry-description">This function returns the filter coefficients of a Welch window.</span></li> - - - - - -<li><a href="window.html" class="refentry">window</a> — <span class="refentry-description">This function creates an m-point window from the function f given as input.</span></li> - - - - - -<li><a href="wkeep.html" class="refentry">wkeep</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="wrev.html" class="refentry">wrev</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="xcorr2.html" class="refentry">xcorr2</a> — <span class="refentry-description"></span></li> - - - - - -<li><a href="zerocrossing.html" class="refentry">zerocrossing</a> — <span class="refentry-description">This function estimates the points at which a given waveform crosses the x-axis.</span></li> - - - - - -<li><a href="zp2sos.html" class="refentry">zp2sos</a> — <span class="refentry-description">This function converts filter poles and zeros to second-order sections.</span></li> - - - - - -<li><a href="zplane.html" class="refentry">zplane</a> — <span class="refentry-description">funcprot(0);</span></li></ul> - <br /> - - <div class="manualnavbar"> - <table width="100%"> - <tr><td colspan="3" class="next"><a href="http://bugzilla.scilab.org/enter_bug.cgi?product=Scilab%20software&component=Documentation%20pages" class="ulink">Report an issue</a></td></tr> -<tr> - <td width="30%"> - - </td> - <td width="40%" class="center"> - <span class="top"><a href="index.html">FOSSEE Signal Processing Toolbox</a></span> - - </td> - <td width="30%" class="next"> - - </td> - </tr></table> - <hr /> - </div> - </body> -</html> |