This paper investigates the input-to-state stability problem of digital filters in the presence of both external disturbance and time delay using generalized overflow arithmetic. A sufficient condition, under which the considered digital filter is realizable and input-to-state stable, is first derived with the help of a tighter matrix inequality. Next, based on this realizability condition, an asymptotic stability criterion is obtained. It is shown that the proposed criterion is less conservative than some existing results. Then two numerical examples are presented to demonstrate the efficiency of the obtained realizability condition and stability criterion
This paper addresses the problem of global asymptotic stability of a class of discrete uncertain sta...
A recently reported criterion due to Ahn and Lee (Adv Differ Equ 51:1–7, 2012) for the induced l∞ st...
We are interested in the optimal filter in a continuous time setting. We want to show that the optim...
This paper is concerned with the stability analysis of fixed-point state-space digital filters with ...
In this brief, a new criterion for the global asymptotic stability of fixed-point state-space digita...
Purpose - The purpose of this paper is to present a criterion for global asymptotic stability of sta...
A set of conditions is derived that ensures overflow stability of second-order digital filters for d...
This paper considers the problem of extended dissipativity analysis for digital filters, which simul...
A criterion for the input/output-to-state stability of interfered state-space digital filters with s...
This paper deals with the problem of undesired memory effects in nonlinear digital filters owing to ...
This brief investigates the generalized dissipativity of digital filters with finite-wordlength arit...
The authors demonstrate some proofs of zero-input overflow-oscillation suppression in recursive digi...
[[abstract]]In this paper, a novel approach is proposed to analyze and minimize fixed-point arithmet...
[[abstract]]In this thesis, the optimal synthesis and stability analysis methods are pre-sented for ...
This paper presents a new passivity condition for fixed-point state-space interfered digital filters...
This paper addresses the problem of global asymptotic stability of a class of discrete uncertain sta...
A recently reported criterion due to Ahn and Lee (Adv Differ Equ 51:1–7, 2012) for the induced l∞ st...
We are interested in the optimal filter in a continuous time setting. We want to show that the optim...
This paper is concerned with the stability analysis of fixed-point state-space digital filters with ...
In this brief, a new criterion for the global asymptotic stability of fixed-point state-space digita...
Purpose - The purpose of this paper is to present a criterion for global asymptotic stability of sta...
A set of conditions is derived that ensures overflow stability of second-order digital filters for d...
This paper considers the problem of extended dissipativity analysis for digital filters, which simul...
A criterion for the input/output-to-state stability of interfered state-space digital filters with s...
This paper deals with the problem of undesired memory effects in nonlinear digital filters owing to ...
This brief investigates the generalized dissipativity of digital filters with finite-wordlength arit...
The authors demonstrate some proofs of zero-input overflow-oscillation suppression in recursive digi...
[[abstract]]In this paper, a novel approach is proposed to analyze and minimize fixed-point arithmet...
[[abstract]]In this thesis, the optimal synthesis and stability analysis methods are pre-sented for ...
This paper presents a new passivity condition for fixed-point state-space interfered digital filters...
This paper addresses the problem of global asymptotic stability of a class of discrete uncertain sta...
A recently reported criterion due to Ahn and Lee (Adv Differ Equ 51:1–7, 2012) for the induced l∞ st...
We are interested in the optimal filter in a continuous time setting. We want to show that the optim...