Exact versus discretized stability regions for a linear delay differential equation

článek v časopise ve Web of Science, Jimp

en

The paper introduces a system of necessary and sufficient stability conditions for a four- term linear delay difference equation with complex coefficients. These conditions are de- rived explicitly with respect to the time lag and can be viewed as a direct discrete coun- terpart to the existing stability results for the underlying delay differential equation. As a main proof tool, the boundary locus technique combined with some special results of the polynomial theory is employed. Since the studied difference equation serves as a θ – method discretization of its continuous pattern, several problems of numerical stability are discussed as well.

The paper introduces a system of necessary and sufficient stability conditions for a four- term linear delay difference equation with complex coefficients. These conditions are de- rived explicitly with respect to the time lag and can be viewed as a direct discrete coun- terpart to the existing stability results for the underlying delay differential equation. As a main proof tool, the boundary locus technique combined with some special results of the polynomial theory is employed. Since the studied difference equation serves as a θ – method discretization of its continuous pattern, several problems of numerical stability are discussed as well.

Linear delay difference equation; Linear delay differential equation; θ -method discretization; Exact and numerical stability

15.04.2019

Elsevier Science Inc.

New York, USA

0096-3003

347

1

712–722

11