Add to ORKGWe show that the negative feedback interconnection of two causal, stable, linear time-invariant systems with a 'mixed' small gain and passivity frequency domain property is guaranteed to be finite-gain stable. This 'mixed' small gain and passivity property refers to the characteristic that the frequency range -∞ < ω < ∞ can be divided into intervals for which the two systems in the interconnection are both: a) 'input and output strictly passive' (and one or both of the systems may or may not have 'gain less than one'); or b) 'input and output strictly passive and with gain less than one'; or c) 'with gain less than one' (and one or both of the systems may or may not be 'input and output strictly passive'). The 'mixed' small gain and passivi...
In this chapter, input-output stability analysis tools and output-feedback networked control design ...
Abstract — We consider the problem of small-gain analysis of asymptotic behavior in interconnected n...
The classical passivity theorem states that the negative feedback interconnection of passive systems...
We show that the negative feedback interconnection of two causal, stable, linear time-invariant syst...
A feedback interconnection consisting of two nonlinear systems is shown to be input-output stable wh...
A negative feedback interconnection consisting of two causal, nonlinear systems is shown to be input...
A loss of passivity in the face of certain frequency dynamics (eg: high frequency dynamics) given an...
For the feedback interconnection of general nonlinear systems, the classical small-gain condition is...
In this paper, we use classical Nyquist arguments to derive stability results for large-scale interc...
Classical dissipativity and small-gain theory provide computationally tractable, but conservative me...
Passivity is an imperative concept and a widely utilized tool in the analysis and control of interco...
We consider the problem of small-gain analysis of asymptotic behavior in interconnected nonlinear dy...
Abstract: We consider the problem of small-gain analysis of asymptotic behavior in in-terconnected n...
The passivity approach to the design of large networks is based on preserving the passivity property...
This thesis is concerned with input-output stability theory. Within this framework, it is of interes...
In this chapter, input-output stability analysis tools and output-feedback networked control design ...
Abstract — We consider the problem of small-gain analysis of asymptotic behavior in interconnected n...
The classical passivity theorem states that the negative feedback interconnection of passive systems...
We show that the negative feedback interconnection of two causal, stable, linear time-invariant syst...
A feedback interconnection consisting of two nonlinear systems is shown to be input-output stable wh...
A negative feedback interconnection consisting of two causal, nonlinear systems is shown to be input...
A loss of passivity in the face of certain frequency dynamics (eg: high frequency dynamics) given an...
For the feedback interconnection of general nonlinear systems, the classical small-gain condition is...
In this paper, we use classical Nyquist arguments to derive stability results for large-scale interc...
Classical dissipativity and small-gain theory provide computationally tractable, but conservative me...
Passivity is an imperative concept and a widely utilized tool in the analysis and control of interco...
We consider the problem of small-gain analysis of asymptotic behavior in interconnected nonlinear dy...
Abstract: We consider the problem of small-gain analysis of asymptotic behavior in in-terconnected n...
The passivity approach to the design of large networks is based on preserving the passivity property...
This thesis is concerned with input-output stability theory. Within this framework, it is of interes...
In this chapter, input-output stability analysis tools and output-feedback networked control design ...
Abstract — We consider the problem of small-gain analysis of asymptotic behavior in interconnected n...
The classical passivity theorem states that the negative feedback interconnection of passive systems...