i want to store the result of 191 iterations in one variable and then i want to find the slope of those values.

Question

ria 2012년 11월 20일

0
링크

이 질문에 대한 바로 가기 링크

https://kr.mathworks.com/matlabcentral/answers/54288-i-want-to-store-the-result-of-191-iterations-in-one-variable-and-then-i-want-to-find-the-slope-of-th

마감: MATLAB Answer Bot 2021년 8월 20일

A = load ('example.txt') size(A) n = 191; for i = 1:191 A (i,:) A([i] , [2 3 4 5 6 7 8 9])

freq(i) = A (i,1) s11mag(i) = A(i,2) s11ang(i) = A(i,3) s12mag(i) = A(i,4) s12ang(i) = A(i,5) s21mag(i) = A(i,6) s21ang(i) = A(i,7) s22mag(i) = A(i,8) s22ang(i) = A(i,9)

% 1deg = 0.0174532925 radians q = 0.0174532925

s11real(i) = s11mag(i) * cos(s11ang(i) * q) s11img(i) = s11mag(i) * sin (s11ang(i) * q) s11(i) = s11mag(i).* exp( j * (s11ang(i) * q))

s12real(i) = s12mag(i) * cos(s12ang(i) * q) s12imag(i) = s12mag(i) * sin (s12ang(i) * q) s12(i) = s12mag(i).* exp( j * (s12ang(i) * q))

s21real(i) = s21mag(i) * cos(s21ang(i) * q) s21imag(i) = s21mag(i) * sin (s21ang(i) * q) s21(i) = s21mag(i).* exp( j * (s21ang(i) * q))

s22real(i) = s22mag(i) * cos(s22ang(i) * q) s22imag(i) = s22mag(i) * sin (s22ang(i) * q) s22(i) = s22mag(i).* exp( j * (s22ang(i) * q))

s = [s11 s12 ; s21 s22] D = ((1+s11(i))*(1+s22(i))-s12(i)*s21(i)) Z0 = 50

%s- parameter to y-parameter

y11(i) = ((1-s11(i))*(1+s22(i))+s12(i)*s21(i)) / (D * Z0) y12(i) = -2*s12(i) / (D * Z0) y21(i) = -2*s21(i) / (D * Z0) y22(i) = ((1+s11(i))*(1-s22(i))+s12(i)*s21(i)) / (D * Z0)

y = [y11 y12 ; y21 y22]

y11real(i) = real(y11(i)) y11imag(i) = imag (y11(i)) y12real(i) = real(y12(i)) y12imag(i) = imag (y12(i)) y21real(i) = real(y21(i)) y21imag(i) = imag (y21(i)) y22real(i) = real(y22(i)) y22imag(i) = imag (y22(i))

%extrinsic parasitic capacitances

Cgdo(i) = -y12imag(i) / (2 * pi * freq(i)) Cgda(i) = [0.01:0.5] * Cgdo(i) Cgdi(i) = 2 * Cgda(i) Cgd(i)= Cgdo(i) - Cgda(i) - Cgdi(i) Cdso(i) = y22imag(i) /(2 * pi * freq(i)) - Cgdo(i) Cpda(i) = [0.01:0.5]* Cdso(i) Cpdi(i) = 3* Cpda(i) Cds(i) = Cdso(i) - (4 * Cpda(i)) Cgs(i) = Cgd(i) Cpga(i) = [0.01:0.5] * Cdso(i)

Cgso(i) = y11imag(i) /(2 * pi * freq(i)) - Cgdo(i) Cpgi(i) = Cgso(i) - Cgd(i) - Cpga(i)

%plotting capacitances vs frequency

% subplot(221);plot(freq,Cpga);hold on; % subplot(222);plot(freq,Cpgi);hold on; % subplot(223);plot(freq,Cpda);hold on; % subplot(224);plot(freq,Cpdi);hold on;

% de- embedding capacitances Cpga,Cpda and Cgda from Y-parameters

y11int(i) = y11(i) - (j* (2 * pi * freq(i)) (Cpga(i) + Cgda(i))) y12int(i) = y12(i) + (j (2 * pi * freq(i)) * Cgda(i)) y21int(i) = y21(i) + (j* (2 * pi * freq(i)) * Cgda(i)) y22int(i) = y22(i) - (j* (2 * pi * freq(i)) *(Cgda(i) +Cpda(i)))

yint = [y11int y12int ; y21int y22int]

y11intreal(i) = real(y11int(i)) y11intimag(i) = imag (y11int(i)) y12intreal(i) = real(y12int(i)) y12intimag(i) = imag (y12int(i)) y21intreal(i) = real(y21int(i)) y21intimag(i) = imag (y21int(i)) y22intreal(i) = real(y22int(i)) y22intimag(i) = imag (y22int(i))

%converting Yint-para to z-parameters

z11(i) = y22int(i) / (y11int(i) * y22int(i) - y12int(i) * y21int(i)) z12(i) = -y12int(i) / (y11int(i) * y22int(i) - y12int(i) * y21int(i)) z21(i) = -y21int(i) / (y11int(i) * y22int(i) - y12int(i) * y21int(i)) z22(i) = y11int(i) / (y11int(i) * y22int(i) - y12int(i) * y21int(i))

z = [z11 z12 ; z21 z22]

w(i) =(2* pi* freq(i))

z11real(i) = real (z11(i)) z11imag(i) = imag (z11(i)) z12real(i) = real (z12(i)) z12imag(i) = imag (z12(i)) z21real(i) = real (z21(i)) z21imag(i) = imag (z21(i)) z22real(i) = real (z22(i)) z22imag(i) = imag (z22(i))

m(i) = w(i) * (z11imag(i) - z12imag(i)) n(i) = w(i) * (z22imag(i) - z12imag(i)) o(i) = w(i) * z12imag(i)

subplot(221);plot(w(i)^2, m(i)); hold on; subplot(222);plot(w(i)^2, n(i)); hold on; subplot(223);plot(w(i)^2, o(i)); hold on; subplot(224);plot(w(i)^2,m(i),’b’, w(i)^2,n(i),’r’, w(i)^2,o(i),’g’); hold on ;

end

댓글 수: 3
이전 댓글 1개 표시이전 댓글 1개 숨기기

ria 2012년 11월 21일

MATLAB Online에서 열기

        A = load ('example.txt')
        size(A) n = 191; 
        for i = 1:191 
        A (i,:) 
        A([i] , [2 3 4 5 6 7 8 9])
        freq(i) = A (i,1)
        s11mag(i) = A(i,2) 
        s11ang(i) = A(i,3) 
        s12mag(i) =  A(i,4)
        s12ang(i) = A(i,5) 
        s21mag(i) = A(i,6) 
        s21ang(i) = A(i,7) 
        s22mag(i) = A(i,8) 
        s22ang(i) = A(i,9)
        % 1deg = 0.0174532925 radians q = 0.0174532925
        s11real(i) = s11mag(i) * cos(s11ang(i) * q) 
        s11img(i) = s11mag(i) * sin (s11ang(i) * q) 
        s11(i) = s11mag(i).* exp( j * (s11ang(i) * q))
        s12real(i) = s12mag(i) * cos(s12ang(i) * q) 
        s12imag(i) = s12mag(i) * sin (s12ang(i) * q)
        s12(i) = s12mag(i).* exp( j * (s12ang(i) * q))
        s21real(i) = s21mag(i) * cos(s21ang(i) * q) 
      s21imag(i) = s21mag(i) * sin (s21ang(i) * q) 
      s21(i) = s21mag(i).* exp( j * (s21ang(i) * q))
        s22real(i) = s22mag(i) * cos(s22ang(i) * q) 
      s22imag(i) = s22mag(i) * sin (s22ang(i) * q) 
      s22(i) = s22mag(i).* exp( j * (s22ang(i) * q))
        s = [s11 s12 ; s21 s22] 
      D = ((1+s11(i))*(1+s22(i))-s12(i)*s21(i)) 
      Z0 = 50
        %s- parameter to y-parameter
        y11(i) = ((1-s11(i))*(1+s22(i))+s12(i)*s21(i)) / (D * Z0)
       y12(i) = -2*s12(i) / (D * Z0) 
      y21(i) = -2*s21(i) / (D * Z0)
       y22(i) = ((1+s11(i))*(1-s22(i))+s12(i)*s21(i)) / (D * Z0)
        y = [y11 y12 ; y21 y22]
        y11real(i) = real(y11(i)) 
      y11imag(i) = imag (y11(i))
       y12real(i) = real(y12(i))
       y12imag(i) = imag (y12(i)) 
      y21real(i) = real(y21(i)) 
      y21imag(i) = imag (y21(i)) 
      y22real(i) = real(y22(i))
       y22imag(i) = imag (y22(i))
        %extrinsic parasitic capacitances
        Cgdo(i) = -y12imag(i) / (2 * pi * freq(i)) 
      Cgda(i) = [0.01:0.5] * Cgdo(i) Cgdi(i) = 2 * Cgda(i) Cgd(i)= Cgdo(i) - Cgda(i) - Cgdi(i) Cdso(i) = y22imag(i) /(2 * pi * freq(i)) - Cgdo(i) Cpda(i) = [0.01:0.5]* Cdso(i) Cpdi(i) = 3* Cpda(i) Cds(i) = Cdso(i) - (4 * Cpda(i)) Cgs(i) = Cgd(i) Cpga(i) = [0.01:0.5] * Cdso(i)
        Cgso(i) = y11imag(i) /(2 * pi * freq(i)) - Cgdo(i) Cpgi(i) = Cgso(i) - Cgd(i) - Cpga(i)
         %plotting capacitances vs frequency
        % subplot(221);plot(freq,Cpga);hold on; % subplot(222);plot(freq,Cpgi);hold on; % subplot(223);plot(freq,Cpda);hold on; % subplot(224);plot(freq,Cpdi);hold on;
        % de- embedding capacitances Cpga,Cpda and Cgda from Y-parameters
        y11int(i) = y11(i) - (j* (2 * pi * freq(i)) (Cpga(i) + Cgda(i))) y12int(i) = y12(i) + (j (2 * pi * freq(i)) * Cgda(i)) y21int(i) = y21(i) + (j* (2 * pi * freq(i)) * Cgda(i)) y22int(i) = y22(i) - (j* (2 * pi * freq(i)) *(Cgda(i) +Cpda(i)))
        yint = [y11int y12int ; y21int y22int]
        y11intreal(i) = real(y11int(i))
 y11intimag(i) = imag (y11int(i))
 y12intreal(i) = real(y12int(i)) 
y12intimag(i) = imag (y12int(i)) 
y21intreal(i) = real(y21int(i)) 
y21intimag(i) = imag (y21int(i))
 y22intreal(i) = real(y22int(i))
 y22intimag(i) = imag (y22int(i))
        %converting Yint-para to z-parameters
        z11(i) = y22int(i) / (y11int(i) * y22int(i) - y12int(i) * y21int(i)) z12(i) = -y12int(i) / (y11int(i) * y22int(i) - y12int(i) * y21int(i)) z21(i) = -y21int(i) / (y11int(i) * y22int(i) - y12int(i) * y21int(i)) z22(i) = y11int(i) / (y11int(i) * y22int(i) - y12int(i) * y21int(i))
        z = [z11 z12 ; z21 z22]
        w(i) =(2* pi* freq(i))
        z11real(i) = real (z11(i)) 
      z11imag(i) = imag (z11(i)) 
      z12real(i) = real (z12(i))
       z12imag(i) = imag (z12(i))
       z21real(i) = real (z21(i)) 
      z21imag(i) = imag (z21(i)) 
      z22real(i) = real (z22(i))
       z22imag(i) = imag (z22(i))
        m(i) = w(i) * (z11imag(i) - z12imag(i))
       n(i) = w(i) * (z22imag(i) - z12imag(i))
       o(i) = w(i) * z12imag(i)
        subplot(221);plot(w(i)^2, m(i)); hold on;
       subplot(222);plot(w(i)^2, n(i)); hold on; 
      subplot(223);plot(w(i)^2, o(i)); hold on; subplot(224);plot(w(i)^2,m(i),’b’, w(i)^2,n(i),’r’, w(i)^2,o(i),’g’); hold on ;
        end

Image Analyst 2012년 11월 21일

A tip: in the editor, type control-A and then control-I and it will make your code look nice - fix all the indenting.

이 질문은 마감되었습니다.

Answer 1

John Petersen 2012년 11월 20일

0
링크

이 답변에 대한 바로 가기 링크

https://kr.mathworks.com/matlabcentral/answers/54288-i-want-to-store-the-result-of-191-iterations-in-one-variable-and-then-i-want-to-find-the-slope-of-th#answer_65978

MATLAB Online에서 열기

gradient(y)

will give you the slope at every point of the variable y.

댓글 수: 2
없음 표시없음 숨기기

ria 2012년 11월 26일

slope is between two variables X and Y .then i can i give the command as gradient(y)..please help..

John Petersen 2012년 11월 28일

MATLAB Online에서 열기

The default spacing used by gradient() is sequential points. The actual spacing of those points is defined by the user. You CAN specify a different spacing if you want. Here's an example:

t = 0:.01:10;
ct = cos(t);
slope_of_ct = gradient(ct);
figure;plot(t,ct,t,slope_of_ct); grid on;
legend('signal','slope of signal');

i want to store the result of 191 iterations in one variable and then i want to find the slope of those values.

댓글 수: 3
이전 댓글 1개 표시이전 댓글 1개 숨기기

답변 (1개)

댓글 수: 2
없음 표시없음 숨기기

참고 항목

태그

Community Treasure Hunt

i want to store the result of 191 iterations in one variable and then i want to find the slope of those values.

댓글 수: 3 이전 댓글 1개 표시이전 댓글 1개 숨기기

답변 (1개)

댓글 수: 2 없음 표시없음 숨기기

참고 항목

태그

Community Treasure Hunt

댓글 수: 3
이전 댓글 1개 표시이전 댓글 1개 숨기기

댓글 수: 2
없음 표시없음 숨기기