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Yemon Choi
Yemon Choi
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Zhi Ming Chen
Zhi Ming Chen
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Hi,

We have a square real symmetric matrix M with the diagonal elements 00's, and the eigenvalues and eigenvectors of M are computed.

Now we wish to change its diagonal elements arbitrarily to minimize the sum of absolute eigenvalues. Does there exist a way to find such modifications?

If we add a constraint : keep Tr(M)=0, would that become easier?

Is there some topics about these?

Thank you for your help

Zhi Ming

Hi,

We have a square real symmetric matrix M with the diagonal elements 0, and the eigenvalues and eigenvectors of M are computed.

Now we wish to change its diagonal elements arbitrarily to minimize the sum of absolute eigenvalues. Does there exist a way to find such modifications?

If we add a constraint : keep Tr(M)=0, would that become easier?

Is there some topics about these?

Thank you for your help

Zhi Ming

Hi,

We have a real symmetric matrix M with diagonal elements 0's, the eigenvalues and eigenvectors of M are computed.

Now we wish to change its diagonal elements arbitrarily to minimize the sum of absolute eigenvalues. Does there exist a way to find such modifications?

If we add a constraint : keep Tr(M)=0, would that become easier?

Is there some topics about these?

Thank you for your help

Zhi Ming

Source Link
Zhi Ming Chen
Zhi Ming Chen
  • 95
  • 1
  • 5

minimize the sum of absolute eigenvalues

Hi,

We have a square real symmetric matrix M with the diagonal elements 0, and the eigenvalues and eigenvectors of M are computed.

Now we wish to change its diagonal elements arbitrarily to minimize the sum of absolute eigenvalues. Does there exist a way to find such modifications?

If we add a constraint : keep Tr(M)=0, would that become easier?

Is there some topics about these?

Thank you for your help

Zhi Ming