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% Chapter 12: Figure 12.35, p. 727 % % Robust control of temperature with variations in % the plant parameter c0. The value of c0 is specified % in the first line of this m-file and can be cha

% Use this program to reproduce Fig. 1.28 a and b close all clear all snr = 13.0 ; % SNR sigmaM = .5; % missile RCS sigmaA = 4; % aircraft CS te = 290.0; % effective noise temperature in Kelvin

echo off % st_demo.m - simple temperature control example with the fuzzy-toolbox. % % Script file relating to fuzdemo2 in the fuzzy-toolbox. % % % FSTB - Fuzzy Systems Toolbox for MATLAB % Cop

% Use this program to reproduce Fig. 1.28 a and b close all clear all snr = 13.0 ; % SNR sigmaM = .5; % missile RCS sigmaA = 4; % aircraft CS te = 290.0; % effective noise temperature in Kelvin

% Use this program to reproduce Fig. 1.28 a and b close all clear all snr = 13.0 ; % SNR sigmaM = .5; % missile RCS sigmaA = 4; % aircraft CS te = 290.0; % effective noise temperature in Kelvin

% Use this program to reproduce Fig. 1.28 a and b close all clear all snr = 13.0 ; % SNR sigmaM = .5; % missile RCS sigmaA = 4; % aircraft CS te = 290.0; % effective noise temperature in Kelvin

% Use this program to reproduce Fig. 1.28 a and b close all clear all snr = 13.0 ; % SNR sigmaM = .5; % missile RCS sigmaA = 4; % aircraft CS te = 290.0; % effective noise temperature in Kelvin

% Use this program to reproduce Fig. 1.28 a and b close all clear all snr = 13.0 ; % SNR sigmaM = .5; % missile RCS sigmaA = 4; % aircraft CS te = 290.0; % effective noise temperature in Kelvin

% Use this program to reproduce Fig. 1.28 a and b close all clear all snr = 13.0 ; % SNR sigmaM = .5; % missile RCS sigmaA = 4; % aircraft CS te = 290.0; % effective noise temperature in Kelvin

% Use this program to reproduce Fig. 1.28 a and b close all clear all snr = 13.0 ; % SNR sigmaM = .5; % missile RCS sigmaA = 4; % aircraft CS te = 290.0; % effective noise temperature in Kelvin