1. A class of inverse eigenvalue problems for real symmetric banded matrices with odd bandwidth.
- Author
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Li, Jicheng, Dong, Liqiang, and Li, Guo
- Subjects
- *
EIGENVALUES , *MATRICES (Mathematics) , *INTEGERS , *REAL numbers , *LANCZOS method , *ALGORITHMS - Abstract
In this paper, we propose and discuss a class of inverse eigenvalue problems for real symmetric banded matrices with odd bandwidth. For an odd 2 p + 1 with a positive integer p , the problem is to construct an n × n real symmetric banded matrix with bandwidth 2 p + 1 whose m × m leading principal submatrix is a given m × m real symmetric banded matrix with bandwidth 2 p + 1 and spectrum is a given set of real numbers { λ i } i = 1 n , where the number of distinct real numbers of { λ i } i = 1 n is 2 k when m = p k , or 2 k + 1 when p k < m < p ( k + 1 ) , where m , n and k are positive integers and m < n . We point out that the well-known double dimensional (DD) problem is a special case of our proposed inverse eigenvalue problems. The necessary and sufficient condition for the solvability of the above inverse eigenvalue problem is derived, and the target real symmetric banded matrix can be constructed by the block Lanczos algorithms when the inverse eigenvalue problem is solvable. Several numerical examples show that our algorithms are feasible. Some concluding remarks are introduced. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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