How to implement the given equation in MATLAB?
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I am studying the following equation:
here 
is 
vector of QPSK symbols, 
belongs to , 
is a random complex number, 
is vector and n ranges from 1 to N. Also note that I have all these values.
is vector of QPSK symbols, belongs to , is a random complex number, is vector and n ranges from 1 to N. Also note that I have all these values.My query is how to implement this equation (1) in MATLAB.
Any help in this regard will be highly appreciated.
3 Comments
Sam Chak
on 10 May 2022
Edited: Sam Chak
on 10 May 2022
It is important to understand that 
is NOT an equation. It is more like a problem to be solved.
is NOT an equation. It is more like a problem to be solved. Mathematically, it implies the value of x for which 
attains its minimum.
attains its minimum.In your case, you should find the solution that is in the set of values 
.
.I understand that this kind of problem can be difficult to understand for people who are not familiar with the math notations. I took a long time to get familiar with them because I don't have a Math Degree and they are often found in academic journal papers involving mathematical optimization problems.
Would suggest you to type out the values of all paramaters.
Not many people understand that QPSK stands for Quadrature Phase Shift Keying.
chaaru datta
on 12 May 2022
Thank you so much sir for your reply..... I am sharing the values of all parameters by assuming n to be ranging from 1 to 8.
.Accepted Answer
Sam Chak
on 12 May 2022
You can click the MATLAB code button and dump the data there.
Anyhow, you can try this simple method to find the 
value that gives the minimum. I copied only 3 sets of data pairs only, but you should get the idea how to do it.
value that gives the minimum. I copied only 3 sets of data pairs only, but you should get the idea how to do it.Psi = -0.06-1.16i;
ym = [-0.41+0.41i 0.54-0.58i -0.62-0.71i]
sm = [0.70+0.70i -0.70-0.70i -0.70+0.70i]
fcn = (abs(Psi*ym - sm)).^2
[fmin, idx] = min(fcn)
sm(idx)
6 Comments
Sam Chak
on 13 May 2022
Please note that sm has some repeated values.
Psi = -0.06-1.16i;
ym = [-0.41+0.41i, 0.54-0.58i, -0.62-0.71i, 0.64+0.56i, -0.70+0.75i, 0.68-0.60i, -0.54-0.55i, 0.43+0.79i];
sm = [0.70+0.70i, -0.70-0.70i, -0.70+0.70i, 0.70-0.70i, 0.70+0.70i, -0.70-0.70i, -0.70+0.70i, 0.70-0.70i];
fcn = (abs(Psi*ym - sm)).^2
[fmin, idx] = min(fcn)
sm(idx)
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