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Energy 的代码
cp0201_waveform.m
%
% FUNCTION 2.5 : "cp0201_waveform"
%
% Generates the energy normalized pulse waveform
%
% Special case of the second derivative Gaussian pulse:
% SCHOLTZ'S MONOCYCLE
%
% ********************
exa1_28.m
% exa1-28_energy.m for example 1-28
% signal energy
n=0:3;
x1=[2 0.5 0.9 1];
Ex=sum(x1.*conj(x1))
%或Ex=sum(abs(x1).^2)
historyupdate.m
function Eh = historyupdate(Eh,Ev,t,T)
% Temperature & Energy history update method supplied with SA Tools.
% Copyright (c) 2002, by Richard Frost and Frost Concepts.
% See http://www.frostconcepts
cp0201_waveform.m
%
% FUNCTION 2.5 : "cp0201_waveform"
%
% Generates the energy-normalized pulse waveform
%
% Special case of the second derivative Gaussian pulse:
% SCHOLTZ'S MONOCYCLE
%
% ********************
cp0201_waveform.m
%
% FUNCTION 2.5 : "cp0201_waveform"
%
% Generates the energy-normalized pulse waveform
%
% Special case of the second derivative Gaussian pulse:
% SCHOLTZ'S MONOCYCLE
%
% ********************
margtfr.m
function [margt,margf,E]=margtfr(tfr,t,f)
%MARGTFR Marginals and energy of a time-frequency representation.
% [MARGT,MARGF,E]=MARGTFR(TFR,T,F) calculates the time and
% frequency marginals and the en
sigmerge.m
function sig=sigmerge(x1,x2,ratio);
%SIGMERGE Add two signals with given energy ratio in dB.
% SIG=SIGMERGE(X1,X2,RATIO) adds two signals so that a given
% energy ratio expressed in deciBels is satisf
sigmerge.m
function sig=sigmerge(x1,x2,ratio);
%SIGMERGE Add two signals with given energy ratio in dB.
% SIG=SIGMERGE(X1,X2,RATIO) adds two signals so that a given
% energy ratio expressed in deciBels is satisf
margtfr.m
function [margt,margf,E]=margtfr(tfr,t,f)
%MARGTFR Marginals and energy of a time-frequency representation.
% [MARGT,MARGF,E]=MARGTFR(TFR,T,F) calculates the time and
% frequency marginals and the en
energy_8h.html
BlueLab: energy.h File Reference