Robust lower guaranteed cost fault tolerant control for interval matrix systems;

The planar magnetic levitation system was a nonlinear uncertain system,the interval matrix minimum upper bound methods was proposed to design robust control.

Designed state feedback controller with gain is also interval matrix.

Further,by using the technique of matrix eigenvalues boundary,some simple and applicable algebraic criteria of the stability,the instability and the mixed stability for the interval matrices and discrete dynamic systems have been gained.

Considering that the network-induced delay is a constant,which is less than one sampling period,Lyapunov Function,linear matrix inequality(LMI) and interval matrices technique are used to design the local optimal controller gain for state feedback network control systems.

By means of the rank of matrix, line outspreading, it gives some conditions in which a matrix can decompose to two Kronecker products of matrix.

In this note,we describe the equivalent propositions on the rank of matrix by determinants,equivalent of matrix,system of linear equations,linear space,linear mapping and so on.

Necessary and sufficient conditions for the Frobenius inequality of rank of matrix to be equality are dicussed in this paper,and the characterization of rank of a class of matrix is characterized.

The way to determine the reflexive g-inverse of full rank matrix A was discussed.

Secondly,the randomly generating of full rank matrix and per-muta.

This paper discusses the way about how to get the reflexive general inverse matrix of a full rank matrix A, and generalize this way, gives the general way for not full rank matrix.

This paper summarizes the applications of elementary transformation of matrix in solving the rank of a matrix or a set of vectors,calculating inverse matrix or system of linear equations,and solving the system of linear equations and the greatest common divisor of polynomials with examples,furthermore,it introduces the thought and application of generalized elementary transformation.