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Showing posts with label Jordan canonical form. Show all posts
Showing posts with label Jordan canonical form. Show all posts
Thursday, August 14, 2008
Linear Dynamical Systems Lecture 14- Applications of Jordan Canonical Form in LDS and Electrical Engineering
Thursday, August 14, 2008
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Linear Dynamical Systems Lecture 13-generalized eigenvectors, diagonalization, and Jordan canonical form
Labels: Diagonalization, electrical engineering, generalized eigenvectors, Jordan canonical form, Linear algebra, Linear Dynamical Systems, Linear Dynamical Systems Lecture, mathematics, Stephen P. BoydJordan normal form (often called Jordan canonical form) shows that a given square matrix M over a field K containing the eigenvalues of M can be transformed into a certain normal form by changing the basis. This normal form is almost diagonal in the sense that its only non-zero entries lie on the diagonal and the superdiagonal. This is made more precise in the Jordan-Chevalley decomposition. One can compare this result with the spectral theorem for normal matrices, which is a special case of the Jordan normal form.
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