How to dynamically create multiple column vectors?

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Justin Goh il 23 Feb 2022

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https://it.mathworks.com/matlabcentral/answers/1656320-how-to-dynamically-create-multiple-column-vectors

Commentato: Justin Goh il 23 Feb 2022

Risposta accettata: DGM

Apri in MATLAB Online

Hi there. I need to compute a matrix R which is computed the following way.

STEP 1: Create L number of column vectors which contains M number of elements

STEP 2: Multiply each column vector by it's transpose, obtaining a MxM matrix

STEP 3: Find the sum of adding all the matrices found in step 2.

My questions are the following:

1) What is the best way to use a for loop to create the column vectors i need?

2) How do I take elements from the end of one array and add them to my new array? (see comment in code below)

M = 5; % Number or elements in each vector 
L = 1000; % Number of column vectors 
N = M+L;
a = 0.05;
 
x = cos(2*pi*0.2*(0:N-1)) + cos(2*pi*0.38*(0:N-1))+(a*randn(1,N));
d = 0.4*cos(2*pi*0.2*(0:N-1)) + (pi/5);
% Compute R 
% STEP 1: Create L number of column vectors which contains M number of elements 
% STEP 2: Multiply each column vector by it's transpose, obtaining a MxM
% matrix
% STEP 3: Find the sum of the matrices found in step 2. 
% x0 = [x(1) x(end) x(end-1) x(end-2) x(end-3)].transpose 
% x1 = [x(2) x(1) x(end) x(end-1) x(end-2)].transpose 
% x2 = [x(3) x(2) x(1) x(end) x(end-1)].transpose 
% x3 = [x(4) x(3) x(2) x(1) x(end)].transpose 
% x4 = [[x(5) x(4) x(3) x(2) x(1)].transpose 
% x(L-1) = [x(L) x(L-1) x(L-2) x(L-3) x(L-4)].

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Answer 1

DGM il 23 Feb 2022

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https://it.mathworks.com/matlabcentral/answers/1656320-how-to-dynamically-create-multiple-column-vectors#answer_902470

Modificato: DGM il 23 Feb 2022

Apri in MATLAB Online

How about something like this?

M = 5; % Number or elements in each vector 
L = 1000; % Number of column vectors 
N = M+L;
a = 0.05;
x = cos(2*pi*0.2*(0:N-1)) + cos(2*pi*0.38*(0:N-1))+(a*randn(1,N));
d = 0.4*cos(2*pi*0.2*(0:N-1)) + (pi/5);
% Compute R 
% STEP 1: Create L number of column vectors which contains M number of elements 
% STEP 2: Multiply each column vector by it's transpose, obtaining a MxM
% matrix
% STEP 3: Find the sum of the matrices found in step 2. 
% x0 = [x(1) x(end) x(end-1) x(end-2) x(end-3)].transpose 
% x1 = [x(2) x(1) x(end) x(end-1) x(end-2)].transpose 
% x2 = [x(3) x(2) x(1) x(end) x(end-1)].transpose 
% x3 = [x(4) x(3) x(2) x(1) x(end)].transpose 
% x4 = [[x(5) x(4) x(3) x(2) x(1)].transpose 
% x(L-1) = [x(L) x(L-1) x(L-2) x(L-3) x(L-4)].
idxx = N:-1:1; 
xksum = 0;
for k = 1:L
    idxx = circshift(idxx,1); % shift the index vector
    xk = x(idxx(1:M)); % extract a sample from x
    xk = xk.*xk.'; % multiply
    xksum = xksum + xk; % add to total
end
xksum % show the result
xksum = 5×5
	1.0e+03 *

    1.0014   -0.2122   -0.3699   -0.0845   -0.3427
   -0.2122    1.0018   -0.2123   -0.3695   -0.0844
   -0.3699   -0.2123    1.0013   -0.2122   -0.3699
   -0.0845   -0.3695   -0.2122    1.0018   -0.2120
   -0.3427   -0.0844   -0.3699   -0.2120    1.0015