How to pre-allocate an array for 6 DOF PUMA robot?

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Prashant Chopade 2013 年 7 月 5 日

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I am trying to prepare a neural network for 6 DOF robot. I have written a following program, but since I am not able to pre-allocate the array size, this program is taking too many days to run. Even after that it is not giving me the results & gets hanged in between.

Below is the program I have written - *****************************************************************************

   % Constants as defined by for PUMA robot
   a2 = 431.8;
   a3 = -20.32;
   d2 = 149.09;
   d4 = 433.07;
   d6 = 56.25;
   % Joint Range of an angle Theta for PUMA Robot links.
   T1=-160*pi/180:10*pi/180:160*pi/180;%Convert to radians.
   T2=-225*pi/180:10*pi/180:45*pi/180;%Convert to radians.
   T3=-45*pi/180:10*pi/180:225*pi/180;%Convert to radians.
   T4=-110*pi/180:10*pi/180:70*pi/180;%Convert to radians.
   T5=-100*pi/180:10*pi/180:100*pi/180;%Convert to radians.
   % Index used
   i=1;
   j=1;
   k=1;
   l=1;
   m=1;
   n=1;
   % Calculating the length of Joint range.
   L1=(length(T1));
   L2=(length(T2));
   L3=(length(T3));
   L4=(length(T4));
   L5=(length(T5));
   % Loop to calculate the X,Y&Z coordinates. 
   for i=1:1:L1
    for j=1:1:L2
     for k=1:1:L3
      for l=1:1:L4
       for m=1:1:L5
       % Equations used to calculate Coordinates for PUMA robot with T Matrix
        % X = COS1[d6(COS23*COS4*SIN5+SIN23*COS5)+
        %     (SIN23*d4)+(a3*COS23)+(a2*COS2)]-
        %     [SIN1(d6*SIN4*SIN5+d2)] (based on this formula.)
         X= cos(T1(i))*(d6*((cos(T2(j)+T3(k))*cos(T4(l))*sin(T5(m)))+
            (sin(T2(j)+T3(k))*cos(T5(m))))+(sin(T2(j)+T3(k))*d4)+
            (a3*cos(T2(j)+T3(k)))+(a2*cos(T2(j))))-
            sin(T1(i))*(d6*sin(T4(l))*sin(T5(m))+d2);
        % Y = SIN1[d6(COS23*COS4*SIN5+SIN23*COS5)+
        %     (SIN23*d4)+(a3*COS23)+(a2*COS2)]+
        %     [COS1(d6*SIN4*SIN5+d2)]  (based on this formula.)
         Y= sin(T1(i))*(d6*((cos(T2(j)+T3(k))*cos(T4(l))*sin(T5(m)))+
            (sin(T2(j)+T3(k))*cos(T5(m))))+(sin(T2(j)+T3(k))*d4)+
            (a3*cos(T2(j)+T3(k)))+(a2*cos(T2(j))))+
            cos(T1(i))*(d6*sin(T4(l))*sin(T5(m))+d2);
        % Z = [d6(COS23*COS5-SIN23*COS4*SIN5)]+
              (COS23*d4)-(a3*SIN23)-(a2*SIN2) (based on this formula.)
          Z= d6*((cos(T2(j)+T3(k))*cos(T5(m)))-
             (sin(T2(j)+T3(k))*cos(T4(l))*sin(T5.(m))))+
             (cos(T2(j)+T3(k))*d4)-(a3*sin(T2(j)+T3(k)))-(a2*sin(T2(j)));
        % Storing values of X, Y & Z coordinates. Also respective angle of the same. 
         [aa(n)]=[X];
         [bb(n)]=[Y];
         [cc(n)]=[Z];
         tt1(n)=T1(i);
         tt2(n)=T2(j);
         tt3(n)=T3(k);
         tt4(n)=T4(l);
         tt5(n)=T5(m);
         n=n+1;
      end
     end
    end
   end
  end

****************************************************************************

I have Matlab 7.0 version.

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dpb 2013 年 7 月 8 日

編集済み: dpb 2013 年 7 月 8 日

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I recast your basic equations a little for readability...

% Equations to calculate Coordinates for PUMA robot with T Matrix
% X = COS1*[d6(COS23*COS4*SIN5+SIN23*COS5) +
%          SIN23*d4 + a3*COS23 + a2*COS2] -
%     SIN1*(d4*SIN4*SIN5+d2)

...

MATLAB code
X= cos(T1)* ...
 (d6*((cos(T2+T3)*cos(T4)*sin(T5)+  (sin(T2)+T3)*cos(T5))) + ...
 (sin(T2+T3)*d4) + (a3*cos(T2+T3)) + (a2*cos(T2))) - ... 
  sin(T1)*((d6*sin(T4)*sin(T5))+d2);

NB that in the above expression for X (in which I removed the subscripts simply to make it easier to see the variables, that the last term (last line in expression) is SIN1*(d4... in ref equation but you've written sin(T1)*((d6... in the code.

This appears a typo??? Need to check your equations very carefully it appears.

I didn't go further 'til that was resolved re: how to compute but as a bare minimum you certainly can preallocate--the length of each vector is simply prod(L1,L2,L3,...,L6)

dpb 2013 年 7 月 11 日

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Excepting for leaving in an inordinate number of blank lines...

I thought I made the following comment before but I don't see it...

% Equations used to calculate Coordinates for PUMA robot with T Matrix
% X = COS1[d6(COS23*COS4*SIN5+SIN23*COS5)+
%     (SIN23*d4)+(a3*COS23)+(a2*COS2)]-
%     [SIN1(d4*SIN4*SIN5+d2)] (based on this formula.)
X= cos(T1(i))*(d6*((cos(T2(j)+T3(k))*cos(T4(l))*sin(T5(m)))+
  (sin(T2(j)+T3(k))*cos(T5(m))))+(sin(T2(j)+T3(k))*d4)+
  (a3*cos(T2(j)+T3(k)))+(a2*cos(T2(j))))-
  sin(T1(i))*(d6*sin(T4(l))*sin(T5(m))+d2);
In comparing the definition equation to your code, the term SIN1[d4...
on the third line seems to be sin(T1*d6... in the code.  But if d6 is really d4 then it would seem the COS1[d6 in the first line should be implemented as cos(T1*d4... so I'm left to conclude either the comment is wrong or the code doesn't match the comment.
Looks to me like you first need to really double-check the equations.

Prashant Chopade 2013 年 7 月 16 日

@dpb - Yes that was a typo error in definition equation. I have corrected now. Thanks for your comments.

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Answer 1

Jan 2013 年 7 月 10 日

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この回答への直接リンク

https://jp.mathworks.com/matlabcentral/answers/81218-how-to-pre-allocate-an-array-for-6-dof-puma-robot#answer_91383

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A demonstration of how to avoid repeated calculations:

for i=1:1:L1
  c1 = cos(T1(i));
  c5 = sin(T1(i));
  for j=1:1:L2
    c7 = a2*cos(T2(j));
    for k=1:1:L3
      c2 = cos(T2(j)+T3(k));
      c4 = sin(T2(j)+T3(k));
      for l=1:1:L4
        c3 = cos(T4(l)) * c2;
        c6 = c5*(d6*sin(T4(l));
        for m=1:1:L5
          X = c1 * (d6 * (c3 * sin(T5(m)) + (c4 * cos(T5(m)))) + ...
              (c4 * d4) + (a3 * c2) + c7) - c6 * sin(T5(m)) + d2);

etc.

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Prashant Chopade 2013 年 7 月 16 日

@Jan - Thanks for your inputs, I will try this one.

Prashant Chopade 2013 年 7 月 17 日

編集済み: Prashant Chopade 2013 年 7 月 17 日

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@Jan - Hey Thanks buddy for your input, I am able to successfully run above 5 "for loops" within around 3 to 4 mins. :)

But now I am facing one more problem of Out of Memory. getting an error as below -

??? Error using ==> horzcat
Out of memory. Type HELP MEMORY for your options.

I have a matlab installed with 32 bit option. My system is 64 bit with 3 gb Ram. So could you please suggest me what I can do here?

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Answer 2

Jan 2013 年 7 月 10 日

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この回答への直接リンク

https://jp.mathworks.com/matlabcentral/answers/81218-how-to-pre-allocate-an-array-for-6-dof-puma-robot#answer_91328

The missing readability of the code discourages me to read it. But I can see two problems which reduces the speed at first glance:

Avoid repeated calculations, e.g. cos(T2(j)+T3(k)) is calculated several times. Using a temporary variable instead is much better.
Pre-allocate the outputs. There is no efficient way if you omit this.

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How to pre-allocate an array for 6 DOF PUMA robot?

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How to pre-allocate an array for 6 DOF PUMA robot?

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