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1. Spectre rf toolbox generator#
2. Spectre rf toolbox portable#
3. Spectre rf toolbox software#
4. Spectre rf toolbox license#

disp('Imagesc does not support non-linear scales for axes. display=3 // non linear scales for the axes.

if display=2, ␉ // imagesc not allowed ␊ Computation of isaffine and freq (vector of frequency samples) ␊įrq=evstr() ␉// last input argument is freqs. Isgridtfr =rem(isgrid-isgridsig-isgridspec*2,8)/4 ␊ Issig=0 isspec=0 layout=issig+isspec*2+1 ␊ If isempty(sig), // I can't make miracles ␊ Iscolorbar=rem(layout-1-issig-isspec*2,8)/4 ␊ Sigenveloppe=rem(linlog-linlogtfr-linlogspec*2,8)/4 ␊ If fs=1e3 & fs=1e6), fs=fs/1e6 unitHz=3 // display in us and MHz ␊ Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA ␊Įrror('fmin should be lower than fmax') ␊Įrror('fmax is a normalized frequency, and should be lower than 0.5') ␊

Spectre rf toolbox software#

along with this program if not, write to the Free Software ␊

Spectre rf toolbox license#

You should have received a copy of the GNU General Public License ␊ GNU General Public License for more details. MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. but WITHOUT ANY WARRANTY without even the implied warranty of ␊

This program is distributed in the hope that it will be useful, ␊ the Free Software Foundation either version 2 of the License, or ␊ it under the terms of the GNU General Public License as published by ␊ This program is free software you can redistribute it and/or modify ␊ Lemoine, October-November 1995, May-June 1996. tfrview is called through tfrqview from any tfr* function. tfrview allows to visualize a time-frequency representation. Run the file tfrparam(METHOD) to know the meaning of P1.P5. P1.P5: parameters of the representation. fmin : smallest normalized frequency ␊ ISGRID : depends on the grids' presence : isgrid=isgridsig+2*isgridspec+4*isgridtfr where isgridsig=1 if a grid is present on the signal and =0 if not, and so on ␊ FS : is the sampling frequency (may be set to 1.0) ␊ LAYOUT : determines the layout of the figure : TFR alone (1), TFR and SIG (2), TFR and spectrum (3), TFR and SIG and spectrum (4), add 4 if you want a colorbar ␊

NF2 : is the number of frequency bins displayed ␊ LEVELNUMB : is the number of levels used with contour ␊ THRESHOLD : is the visualization threshold, in % ␊ LINLOG :0/1 for linearly/logarithmically spaced levels ␊ DISPLAY : 1.5 for contour, imagesc, pcolor, surf or mesh ␊

PARAM : visualization parameter vector : PARAM = where ␊ METHOD : chosen representation (name of the corresponding sci-file) ␊ tfrview(TFR,SIG,T,METHOD,PARAM,P1,P2) ␊ Visualization of time-frequency representations. ΨBayes: Scilab Package for Bayesian Estimation and Learningįunction tfrview(tfr,sig,t,method,param,p1,p2,p3,p4,p5) ␊

Spectre rf toolbox generator#

Xcos re-useable and customizable code generator Sysmetab, 13C metabolic flux analysis with Scilab Sparse Least Squares Preconditioned methods Scilab RF Toolkit - A New Toolbox For Versatile RF Applications Minimum phase function design and its application Linear and Nonlinear Model Predictive Control JIMS - Java Interaction Mechanism in Scilab Iterative Methods for Sparse Linear Systems Image Processing and Computer Vision Toolbox GIWS - A wrapper generator to generate C++ mapping Java classes Castagliola's Probability & Statistics FunctionsĬode generator for SIE platform (MIPS+FPGA)ĭocumentation : A Proposal for a Mathematical Roadmapĭocumentation : Floating Point Numbers in Scilabĭocumentation : Introduction to Discrete Probabilitiesĭocumentation : Introduction to Optimization with Scilabĭocumentation : Introduction to Sparse Matrices in Scilabĭocumentation : Numerical Derivatives in Scilabĭocumentation : The Nelder Mead Componentĭocumentation : Unconstrained Optimality Conditions with Scilabĭocumentation : Writing Scilab ExtensionsĮBayes: Scilab Package for Evolutionary Filtering

Spectre rf toolbox portable#

Accurate and portable elementary functionsĬASCI - P.