In this paper, we discuss the generalized quaternion matrix equation AXB+CX⋆D=E, where X⋆ is one of X, X*, the η‐conjugate or the η‐conjugate transpose of X with η∈{i,j,k}. Two new real representations of a generalized quaternion matrix are proposed. By using this method, the criteria for the existence and uniqueness of solutions to the mentioned matrix equation as well as the existence of X=± X⋆ solutions to the generalized quaternion matrix equation AXB+CXD=E are derived in a unified way.
In this paper, we propose a new structure-preserving algorithm for
computing the singular value decomposition of a quaternion matrix $A$.
We first define a quaternion-type matrix and prove that the
multiplication of two quaternion-type matrices still be a
quaternion-type matrix. Thus, utilizing this fact, we conduct a sequence
of quaternion-type unitary transformations on a half of the elements of
the complex adjoint matrix $\chi_A$ of $A$ instead
of on the whole $\chi_A$. Then, we recover the
resulting matrix with the help of the special structures. Compared with
direct performing on the complex adjoint matrix, our algorithm needs
only half of the computation and storage. This method also provides a
novel proof for the existence of the singular value decomposition of a
quaternion matrix. Moreover, numerical experiments are given to
demonstrate the validity of our approach.
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