how to solve this equation of motion?

Question

AJ 2020년 1월 21일

0
링크

이 질문에 대한 바로 가기 링크

https://kr.mathworks.com/matlabcentral/answers/501238-how-to-solve-this-equation-of-motion

댓글: darova 2020년 1월 23일

Hi

I appreciate if anyone can help me to underestand if I can solve this EOM like a normal 2DOF system which I use ODE45 for it.

Here is the paper:

https://www.jvejournals.com/article/16409

which:

function yp = func_forced_5DOF(t,y,M,ws,m1,m2,r,kx,ky,ksi,fx,fy,fsi,fd1,fd2,J,j1,j2,L1,L2)
a0 = (1 - ((ws^2)*Ts*Tr*Sig)^2) + ((ws^2)*((Tr + Ts)^2));
a1 = (2*(1 - ((ws^2)*Ts*Tr*Sig))*ws*Ts*Tr*Sig) - (2*(ws*((Tr + Ts)*Tr)));
a2 = Tr^2 + ((ws^2) * (Ts^2) * (Tr^2) *(Sig^2));
 
Te1 = (K*(ws-y(9))) / ((a2*(y(9)^2))+(a1*y(9))+a0);
Te2 = (K*(ws-y(10))) / ((a2*(y(10)^2))+(a1*y(10))+a0);
 
 
yp(1,:) = y(6,:);
yp(2,:) = y(7,:);
yp(3,:) = y(8,:);
yp(4,:) = y(9,:);
yp(5,:) = y(10,:);
yp(6,:) = ((m1*r*( ((y(9,:)^2) * cos(y(4,:))) + (yp(9,:)*sin(y(4,:))) )) - ( m2*r(  ((y(10,:)^2) * cos(y(5,:))) + (yp(10,:)*sin(y(5,:))) ))  - (fx*y(6,:)) - (kx*y(1,:))) / M;
yp(7,:) = ((m1*r*( ((y(9,:)^2) * sin(y(4,:))) - (yp(9,:)*cos(y(4,:))) )) + ( m2*r(  ((y(10,:)^2) * sin(y(5,:))) - (yp(10,:)*cos(y(5,:))) ))  - (fy*y(7,:)) - (ky*y(2,:))) / M;
yp(8,:) = ((-1*m1*r*L1*( ((y(9,:)^2) * sin(y(4,:))) - (yp(9,:)*cos(y(4,:))) )) + ( m2*r*L2*(  ((y(10,:)^2) * sin(y(5,:))) - (yp(10,:)*cos(y(5,:))) ))  - (fsi*y(8,:)) - (ksi*y(3,:))) / J;
yp(9,:) = (Te1 - (m1*r*( ( yp(7,:) * cos(y(4,:))) - (yp(6,:)*sin(y(4,:)) ))) - ( L1*(  (yp(8,:) * cos(y(4,:))))) - (fd1*y(9,:)) ) / j1;
yp(10,:) = (Te2 - (m2*r*( ( yp(7,:) * cos(y(5,:))) - (yp(6,:)*sin(y(5,:)) ))) + ( L2*(  (yp(8,:) * cos(y(5,:))))) - (fd2*y(10,:)) ) / j2;

댓글 수: 0
이전 댓글 -2개 표시이전 댓글 -2개 숨기기

댓글을 달려면 로그인하십시오.

이 질문에 답변하려면 로그인하십시오.

Answer 1

darova 2020년 1월 21일

1
링크

이 답변에 대한 바로 가기 링크

https://kr.mathworks.com/matlabcentral/answers/501238-how-to-solve-this-equation-of-motion#answer_411216

Here is an idea:

function main
% define constants
m1 = ...
m2 = ...
    function dy = myode(t,u)
        x = u(1);
        dx = u(2);
        %% ...
        phi2 = u(9);
        dphi2 = u(10);
        
        % coefficient matrix 
        % d2x d2y d2psi d2phi1 d2phi2
        A = [M 0 0 -m1*r*sin(phi1) m2*r*sin(phi2)
             0 M 0  m1*r*cos(phi1) m2*r*cos(phi2)
             0 0 J  m1*r*L1*cos(phi1) ...
             % ...
            ];
        % constant matrix
        B = [-fx*dx - kx*x + m1*r*dphi1^2*cos(phi1) - m2*r*dphi2^2*cos(phi2)
            %..
            ];
        dy(1:5,1) = u(2:2:10);    % velocities
        dy(6:10,1) = A\B;         % accelerations
    end
end

댓글 수: 6
이전 댓글 4개 표시이전 댓글 4개 숨기기

AJ 2020년 1월 21일

편집: AJ 2020년 1월 21일

Thanks.

But how do you include the Te1 and Te2 which is the electromagnitude torque from the two motors?

I really appreciate if you could see this code and help me with the of A and B:

% function main
% define constants
clc; clear all;
M = 300;
m1 = 4; m2 = 4; 
J = 35;
kx = 154000;
ky = 154000;
ksi = 29000;
fx = 270;
fy = 270;
fsi = 34;
fd1 = 0.0001;
fd2 = 0.0001;
Li = 0.5;
r = 0.05;
np = 3;
Rs = 25.4;
Rr = 25.4;
Ls = 1.7;
Lr = 1.7;
Lm = 1.15;
U = 220;
K = (3*np*(Lm^2)* (U^2)) / ((Rs^2)*Rr)
Ts = Ls/Rs;
Tr = Lr/Rr;
Sig = 1 - ((Lm^2) / (Ls*Lr))
a0 = (1 - ((ws^2)*Ts*Tr*Sig)^2) + ((ws^2)*((Tr + Ts)^2));
a1 = (2*(1 - ((ws^2)*Ts*Tr*Sig))*ws*Ts*Tr*Sig) - (2*(ws*((Tr + Ts)*Tr)));
a2 = Tr^2 + ((ws^2) * (Ts^2) * (Tr^2) *(Sig^2));
%  
Z0 = [0,0,0,0,0,0,0,0,0,0]; 
[t,y] = ode45(@(t,y) myode(t,u,M,m1,m2,L1,L2,r,J,j1,j2,ws,K,a0,a1,a2,kx,ky,kpsi,fx,fy,fpsi),t,Z0);
    function dy = myode(t,u,M,m1,m2,L1,L2,r,J,j1,j2,ws,K,a0,a1,a2,kx,ky,kpsi,fx,fy,fpsi)
        x = u(1);
        dx = u(2);
        y = u(3);
        dy = u(4);
        Psi = u(5);
        dPsi = u(6);
        phi1 = u(7);
        dphi1 = u(8);
        phi2 = u(9);
        dphi2 = u(10);
        
        Te1 = (K*(ws-dphi1)) / ((a2*(dphi1^2))+(a1*dphi1)+a0);
        Te2 = (K*(ws-dphi2)) / ((a2*(dphi2^2))+(a1*dphi2)+a0);
        A = [M 0 0   -m1*r*sin(phi1)    m2*r*sin(phi2)
             0 M 0    m1*r*cos(phi1)    m2*r*cos(phi2)
             0 0 J    m1*r*L1*cos(phi1) m2*r*L2*cos(phi2)...
             % ...
            ];
        
        B = [-fx*dx - kx*x + m1*r*dphi1^2*cos(phi1) - m2*r*dphi2^2*cos(phi2)
            -fy*dy - ky*y + m1*r*dphi1^2*sin(phi1) - m2*r*dphi2^2*sin(phi2)
            -fpsi*dpsi - kpsi*psi - m1*r*L1*dphi1^2*sin(phi1) + m2*r*L2*dphi2^2*sin(phi2)
            %..
            ];
        dy(1:5,1) = u(2:2:10);    % velocities
        dy(6:10,1) = A\B;         % accelerations
    end

The process that is given by the paper:

What I am trying to get out of the EOM:

AJ 2020년 1월 22일

편집: AJ 2020년 1월 22일

Thank you for the answer. I worked on the code and I'm not really sure if it works. The program is keep running.

Can you please help me to understand that how I can choose the initial values?

Also, I defined the electromagnetic torque from the two motors as below with substituting dPhi1 and dPhi2. Does that make sence? Should I use the time (t) somewher?

clc; clear all;
M = 300;
m1 = 4; m2 = 4; m = [m1,m2];
J = 35;
kx = 154000; ky = 154000; ks = 29000; 
k = [kx, ky, ks];
fx = 270;
fy = 270;
fs = 34;
fd1 = 0.0001;
fd2 = 0.0001;
L1 = 0.5;
L2 = 0.5;
r = 0.05;
j1 = m1*r^2;j2 = m2*r^2;
np = 3;
Rs = 25.4;
Rr = 25.4;
Ls = 1.7;
Lr = 1.7;
Lm = 1.15;
U = 220;
M = 300;
K = (3*np*(Lm^2)* (U^2)) / ((Rs^2)*Rr)
Ts = Ls/Rs;
Tr = Lr/Rr;
Sig = 1 - ((Lm^2) / (Ls*Lr))
ws = 960;
a0 = (1 - ((ws^2)*Ts*Tr*Sig)^2) + ((ws^2)*((Tr + Ts)^2));
a1 = (2*(1 - ((ws^2)*Ts*Tr*Sig))*ws*Ts*Tr*Sig) - (2*(ws*((Tr + Ts)*Tr)));
a2 = Tr^2 + ((ws^2) * (Ts^2) * (Tr^2) *(Sig^2));
%  
t_end = 5; dt = 0.1; t  = 0:dt:t_end;
Z1 = 0;
Z2 = 0.001;
Z0 = [Z1,Z1,Z1,Z1,Z1,Z2,Z2,Z2,Z2,Z2]; 
[t,u] = ode45(@(t,u) myode2(t,u,M,m,k,fx,fy,fs,L1,L2,fd1,fd2,r,K,ws,a0,a1,a2,J,j1,j2),t,Z0);

function du = myode2(t,u,M,m,k,fx,fy,fs,L1,L2,fd1,fd2,r,K,ws,a0,a1,a2,J,j1,j2)
m1 = m(1);
m2 = m(2);
kx = k(1);ky = k(2);ks = k(3);
Te1 = (K*(ws-u(8))) / (a2*(u(8)^2) + a1*u(8) + a0);
Te2 = (K*(ws-u(10))) / (a2*(u(10)^2) + a1*u(10) + a0);
A = [M 0 0 -m1*r*sin(u(7)) m2*r*sin(u(9));...
     0 M 0 m1*r*cos(u(7)) m2*r*cos(u(9));...
     0 0 J -m1*r*L1*cos(u(7)) m2*r*L2*cos(u(9));...
     -m1*r*sin(u(7)) m1*r*cos(u(7)) -m1*r*L1*cos(u(7)) j1 0;...
     -m2*r*sin(u(9)) m2*r*cos(u(9)) -m2*r*L2*cos(u(9)) 0 j1];
 
B = [-kx*u(1)-fx*u(2)+m1*r*cos(u(7))*(u(8)^2)-m2*r*cos(u(9))*(u(10)^2) ;...
     -ky*u(3)-fy*u(4)+m1*r*sin(u(7))*(u(8)^2)+m2*r*sin(u(9))*(u(10)^2) ;...
     -ks*u(5)-fs*u(6)+m1*r*L1*sin(u(7))*(u(8)^2)+m2*r*L2*sin(u(9))*(u(10)^2) ;...
     Te1-fd1*u(8) ;...
     Te2-fd2*u(10)];
du(1:5,:) = u(2:2:10);    % velocities
du(6:10,:) = A\B;         % accelerations

AJ 2020년 1월 23일

Thanks a lot. I really appreciate.

Is there any way to guess that what range the initial conditions are?

darova 2020년 1월 23일

Those values are something like M or kx. You can't guess them

Imagine you have something like that:

You want to see what will hapen if you loose green ball.

What will be the initial conditions (Velocity and angle)? Depends on what you want

댓글을 달려면 로그인하십시오.

how to solve this equation of motion?

댓글 수: 0
이전 댓글 -2개 표시이전 댓글 -2개 숨기기

답변 (1개)

댓글 수: 6
이전 댓글 4개 표시이전 댓글 4개 숨기기

참고 항목

카테고리

태그

제품

Community Treasure Hunt

how to solve this equation of motion?

댓글 수: 0 이전 댓글 -2개 표시이전 댓글 -2개 숨기기

답변 (1개)

댓글 수: 6 이전 댓글 4개 표시이전 댓글 4개 숨기기

참고 항목

카테고리

태그

제품

Community Treasure Hunt

댓글 수: 0
이전 댓글 -2개 표시이전 댓글 -2개 숨기기

댓글 수: 6
이전 댓글 4개 표시이전 댓글 4개 숨기기