An approach is developed based on polynomial matrix theory for formulating the equations of motion and for determining the response of multi-degree-of-freedom (MDOF) linear dynamical systems with singular matrices and subject to linear constraints. This system modeling may appear for reasons such as utilizing redundant DOFs, and can be advantageous from a computational cost perspective, especially for complex (multi-body) systems. The herein developed approach can be construed as an alternative to the recently proposed methodology by Udwadia and coworkers, and has the significant advantage that it circumvents the use of pseudoinverses in determining the system response. In fact, based on the theoretical machinery of polynomial matrices, a c...
A frequency domain methodology is developed for stochastic response determination of multi-degree-of...
This paper is concerned with the computation of transfer function matrices of linear multivariable s...
In this article, the class of higher order linear matrix differential equations with constant coeffi...
A framework is developed for determining the stochastic response of linear multi-degree-of-freedom (...
A new technique is proposed for determining the response of multi-degree-of-freedom nonlinear system...
Solvability and general solutions to dynamic systems in polynomial matrix descriptions are investiga...
Both time- and frequency-domain solution techniques are developed for determining the response of li...
The solution of the motion equation for a structural system under prescribed loading and the predict...
A new technique is proposed for determining the response of multi-degree-of-freedom nonlinear system...
Complex mechanical (e.g., multibody) systems with different types of constraints are generally perfo...
This note refers to the computation of a statespace realization of a linear dynamical system, starti...
In this note we aim to show how the well-known denitions and results obtained for the classic polyno...
The computation of a state-space realization of a linear dynamical system, starting from a polynomia...
A frequency domain methodology is developed for stochastic response determination of multi-degree-of...
This paper is concerned with the computation of transfer function matrices of linear multivariable s...
In this article, the class of higher order linear matrix differential equations with constant coeffi...
A framework is developed for determining the stochastic response of linear multi-degree-of-freedom (...
A new technique is proposed for determining the response of multi-degree-of-freedom nonlinear system...
Solvability and general solutions to dynamic systems in polynomial matrix descriptions are investiga...
Both time- and frequency-domain solution techniques are developed for determining the response of li...
The solution of the motion equation for a structural system under prescribed loading and the predict...
A new technique is proposed for determining the response of multi-degree-of-freedom nonlinear system...
Complex mechanical (e.g., multibody) systems with different types of constraints are generally perfo...
This note refers to the computation of a statespace realization of a linear dynamical system, starti...
In this note we aim to show how the well-known denitions and results obtained for the classic polyno...
The computation of a state-space realization of a linear dynamical system, starting from a polynomia...
A frequency domain methodology is developed for stochastic response determination of multi-degree-of...
This paper is concerned with the computation of transfer function matrices of linear multivariable s...
In this article, the class of higher order linear matrix differential equations with constant coeffi...