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How to solve optimization problem using sequential minimal optimization (SMO) in MATLAB
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Hello all, I have the following optimization problem .
where 
is a column vector of dimension 
, 
is also a column vector of dimension and 
is matrix of dimension 
and 
is 
row vector of .
is a column vector of dimension , is also a column vector of dimension and is matrix of dimension and is row vector of .My query is How to solve it using sequential minimal optimization (SMO) in MATLAB ?
Any help in this regard will be highly appreciated.
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Accepted Answer
Matt J
on 18 Mar 2023
7 Comments
charu shree
on 20 Mar 2023
Thank you sir for your detailed answer.
Basically, 
is the Gaussian radial basis function.
is the Gaussian radial basis function. My query is that as both l, j in 
and
is from 1 to 
, hence the norm inside exponential will always be zero, then how should we tackle this inside the two summations ?
and is from 1 to , hence the norm inside exponential will always be zero, then how should we tackle this inside the two summations ?
Matt J
on 20 Mar 2023
Edited: Matt J
on 20 Mar 2023
My query is that as both l, j in and is from 1 to L_t, hence the norm inside exponential will always be zero, then how should we tackle this inside the two summations ?
No, the norm will be non-zero whenever the vectors pr[l] and pr[j] are different. Also, this seems far afield now from your originally-posted question. Even if all the norms were zero, the ways to proceed with the optimization, which Torsten and I have already described, would not change.
If your original question has been answered, please Accept-click the answer and post any new questions you may have in a new thread.
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