This paper addresses issues related to the order reduction of systems with multiple input/output ports. The order reduction is divided up into two steps. The first step is the standard order reduction method based on the multipoint approximation of system matrices by applying Krylov subspace. The second step is based on the rejection of the weak part of a system. To recognise the weak system part, Lyapunov equations are used. Thus, this paper introduces efficient solutions of the Lyapunov equations for port to port subsystems
We present a model order reduction method which allows the construction of a reduced, delay-free mod...
Abstract. Krylov subspace methods have become very popular, not only for solving large scale linear ...
The modelling of physical processes gives rise to mathematical systems of increasing complexity. Goo...
This paper addresses issues related to the order reduction of systems with multiple input/output por...
This paper introduces a model order reduction method that takes advantage of the near orthogonality ...
We consider model order reduction of mechanical systems with moving loads. Such systems have a time-...
Model order reduction appears to be beneficial for the synthesis and simulation of compliant mechani...
In this paper, we propose a projection technique for model order reduction of discrete-time bilinear...
We present a theory for reduced order modeling of linear time-varying system, together with techniqu...
In this paper, we propose an algorithm for model order reduction of large scale systems that can be ...
Model order reduction (MOR) of periodic systems using the Krylov subspace methods received lots of i...
AbstractIn order reduction of large-scale linear time invariant systems, Krylov subspace methods bas...
New variants of Krylov subspace methods for numerical solution of linear systems, eigenvalue, and mo...
In this work we investigate the application of some model order reduction techniques, based on Krylo...
In this paper, we describe some recent developments in the use of projection methods to produce redu...
We present a model order reduction method which allows the construction of a reduced, delay-free mod...
Abstract. Krylov subspace methods have become very popular, not only for solving large scale linear ...
The modelling of physical processes gives rise to mathematical systems of increasing complexity. Goo...
This paper addresses issues related to the order reduction of systems with multiple input/output por...
This paper introduces a model order reduction method that takes advantage of the near orthogonality ...
We consider model order reduction of mechanical systems with moving loads. Such systems have a time-...
Model order reduction appears to be beneficial for the synthesis and simulation of compliant mechani...
In this paper, we propose a projection technique for model order reduction of discrete-time bilinear...
We present a theory for reduced order modeling of linear time-varying system, together with techniqu...
In this paper, we propose an algorithm for model order reduction of large scale systems that can be ...
Model order reduction (MOR) of periodic systems using the Krylov subspace methods received lots of i...
AbstractIn order reduction of large-scale linear time invariant systems, Krylov subspace methods bas...
New variants of Krylov subspace methods for numerical solution of linear systems, eigenvalue, and mo...
In this work we investigate the application of some model order reduction techniques, based on Krylo...
In this paper, we describe some recent developments in the use of projection methods to produce redu...
We present a model order reduction method which allows the construction of a reduced, delay-free mod...
Abstract. Krylov subspace methods have become very popular, not only for solving large scale linear ...
The modelling of physical processes gives rise to mathematical systems of increasing complexity. Goo...