HI EVERY ONE how can i develop a general equation for the training neural net work results as shown below and how can i make these equations linear or non linear
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% ===== NEURAL NETWORK CONSTANTS =====
% Input 1
x1_step1_xoffset = [0.335;0.335;0.501;0.102];
x1_step1_gain = [3.01659125188537;3.01659125188537;4.01606425702811;2.23214285714286];
x1_step1_ymin = -1;
% Layer 1
b1 = [0.70223325258608282;0.24104166905986787;0.15348156236755661;0.71745208472067135;1.0923437909596025;-0.95136708708664663;-0.2046868130938489;0.69549692559132981;0.70255125958906395;0.53378139024323834];
IW1_1 = [0.31553367340711991 -0.40137059105569073 -0.22075607834007485 0.5348647692271854;-0.092030091983253126 -0.28374584174349826 0.20649380927946556 0.35735939709861786;0.32776169040220832 0.050294626086545419 0.079667428618699215 0.50081651896574708;-0.14811804808977719 0.38151873789393176 0.017981906558287995 0.66424811151304852;-0.37652540039941323 0.97877832998161851 -0.077044057346401851 -0.51900261587883245;-0.32720151455381563 0.42742966055003245 -0.35517724643687826 0.50098153225098097;-0.051448362732210991 0.0082648279513306416 -0.86709811026715733 -0.39857638994588535;0.46109450080528508 -0.066531109937333383 -0.041113866300515452 -0.56353092984647901;0.80083018038171372 -0.88583750768332392 -0.063517585064946633 0.81425789700412732;0.079986908269888413 -0.22913002954215689 -0.31306995793356845 -0.38078052790236266];
% Layer 2
b2 = [0.091922137693532732;-0.019433047791502147;0.69939781374412402];
LW2_1 = [0.55261567997791849 0.1160223164052863 -0.047616424378837022 0.42605645022894073 -0.10415185746376703 0.06618768395919053 0.0010938058921189939 -0.6341905607646755 -0.012011661547148993 -0.69437567292807567;0.17306699275597687 0.89820835369168806 0.58079560414251308 0.18560768732162328 0.31513562885346247 0.67277236054086276 0.36880119902800917 0.18586934718597467 -0.083078511715570055 -0.86733076931692943;-0.95085049127019827 0.06753786869036002 -0.42801674583698929 0.94677747671052259 -0.91050254600951541 0.049169317644063827 0.30599676599180614 -0.53164266498283019 0.78422577249919112 -0.54830037775898877];
% Output 1
y1_step1_ymin = -1;
y1_step1_gain = [2.17155266015201;2.1978021978022;4.96277915632754];
y1_step1_xoffset = [0.075;0.075;0.034];
% ===== SIMULATION ========
% Dimensions
Q = size(x1,2); % samples
% Input 1
xp1 = mapminmax_apply(x1,x1_step1_gain,x1_step1_xoffset,x1_step1_ymin);
% Layer 1
a1 = tansig_apply(repmat(b1,1,Q) + IW1_1*xp1);
% Layer 2
a2 = repmat(b2,1,Q) + LW2_1*a1;
% Output 1
y1 = mapminmax_reverse(a2,y1_step1_gain,y1_step1_xoffset,y1_step1_ymin);
end
% ===== MODULE FUNCTIONS ========
% Map Minimum and Maximum Input Processing Function function y = mapminmax_apply(x,settings_gain,settings_xoffset,settings_ymin) y = bsxfun(@minus,x,settings_xoffset); y = bsxfun(@times,y,settings_gain); y = bsxfun(@plus,y,settings_ymin); end
% Sigmoid Symmetric Transfer Function function a = tansig_apply(n) a = 2 ./ (1 + exp(-2*n)) - 1; end
% Map Minimum and Maximum Output Reverse-Processing Function function x = mapminmax_reverse(y,settings_gain,settings_xoffset,settings_ymin) x = bsxfun(@minus,y,settings_ymin); x = bsxfun(@rdivide,x,settings_gain); x = bsxfun(@plus,x,settings_xoffset); end
1 Comment
Candy Swift
on 20 Aug 2015
Good question asked. I also have similar problem with you. Let's wait for others to help.
Candy Swift
Accepted Answer
Greg Heath
on 28 Aug 2015
I have posted this answer several times in other posts. Try searching ANSWERS and the NEWSGROUP using
neural analytic greg
Hope this helps.
Thank you for formally accepting my answer
Greg
More Answers (0)
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