Some applications require norm computation of frequency-truncated systems. A typical frequency- truncated system is one whose frequency response is rational in certain frequency bands and is zero in others. This note explains how to compute the $L^2$ norm of such systems
Norms for operators play a fundamental role in the stability and approximation theory of linear and ...
This paper is concerned with linear time-invariant (LTI) sampled-data systems (by which we mean samp...
The first part of this work describes a method for calculating the impulse and step response of a li...
Some applications require norm computation of frequency-truncated systems. A typical frequency- trun...
It is well-known that linear, periodically time-varying, continuous-time systems are formally equiva...
In this paper, a new simple but yet efficient spectral expression of the frequency-limited H2-norm, ...
This paper addresses the relationship between time-domain waveforms and their Fourier transforms in ...
Design of optimal signal reconstructors over all samplers and holds boils down to canceling frequenc...
This paper develops exact, computable formulas for the frequency gain and L₂-induced norm of the sen...
It is well-known that the H2-norm and H-norm of a transfer function can differ arbitrarily since bot...
Determining the induced L2 norm of a linear, parameter-varying (LPV) system is an integral part of m...
In this paper, an algorithm is derived for the determination of the output frequency ranges of nonli...
Abstract: The poles/residues expression of the frequency-limited H2-norm is used to derive two upper...
This paper tackled the problem of characterizing the induced norm from L₂ to L∞ in single-input/sing...
The frequency representation of periodic and aperiodic signals indicates how their power or energy i...
Norms for operators play a fundamental role in the stability and approximation theory of linear and ...
This paper is concerned with linear time-invariant (LTI) sampled-data systems (by which we mean samp...
The first part of this work describes a method for calculating the impulse and step response of a li...
Some applications require norm computation of frequency-truncated systems. A typical frequency- trun...
It is well-known that linear, periodically time-varying, continuous-time systems are formally equiva...
In this paper, a new simple but yet efficient spectral expression of the frequency-limited H2-norm, ...
This paper addresses the relationship between time-domain waveforms and their Fourier transforms in ...
Design of optimal signal reconstructors over all samplers and holds boils down to canceling frequenc...
This paper develops exact, computable formulas for the frequency gain and L₂-induced norm of the sen...
It is well-known that the H2-norm and H-norm of a transfer function can differ arbitrarily since bot...
Determining the induced L2 norm of a linear, parameter-varying (LPV) system is an integral part of m...
In this paper, an algorithm is derived for the determination of the output frequency ranges of nonli...
Abstract: The poles/residues expression of the frequency-limited H2-norm is used to derive two upper...
This paper tackled the problem of characterizing the induced norm from L₂ to L∞ in single-input/sing...
The frequency representation of periodic and aperiodic signals indicates how their power or energy i...
Norms for operators play a fundamental role in the stability and approximation theory of linear and ...
This paper is concerned with linear time-invariant (LTI) sampled-data systems (by which we mean samp...
The first part of this work describes a method for calculating the impulse and step response of a li...