Many deterministic and random physical signals can be modeled as the output of a multi-input multi-output (MIMO) dynamical system. Since physical signals are typically nonstationary, their frequency content changes with time. To understand this time variation, we transform the MIMO system to the time-frequency domain. The result is a time-frequency MIMO dynamical system, whose input and output are the time-frequency spectra of the original input and output signals in the time domain. The time-frequency system reveals the spectral mechanisms involved in the generation of nonstationary signals. We apply our method to the case of a MIMO system with two vibrational modes and a nonstationary noise at the input. We obtain the time-frequency spect...
In this paper we present a novel non-iterative algorithm for identifying linear time-invariant discr...
We present a new method to study linear systems that exhibit time-varying characteristics and are go...
The frequency representation of periodic and aperiodic signals indicates how their power or energy i...
Multiple-input multiple-output (MIMO) random systems are a common model for stochastic phenomena. Th...
We obtain the approximate analytic time-frequency spectrum of the output of a dynamical system when ...
Dynamical systems represent fundamental models for vibration analysis. When the input of such dynami...
We obtain the time-frequency response of the output of a dynamical system when the input belongs to ...
This work investigates methods for the analysis and synthesis of nonstationary signals using time-fr...
Due to the importance of non-stationary components in vibration signals, several studies in the past...
In this paper we study how a system with a time-periodic impulse response may be expanded into a sum...
The chapter describes the time-frequency representation of nonstationary signals and system
We discuss the application of time-frequency analysis to biomechanical-type signals, and in particul...
This paper deals with the modelization and detection of non-stationary random signals in the time-fr...
This article describes a new frequency- domain multi-input multioutput linear time-invariant (LTI) s...
Representation of signals in time and frequency domain has been of interest in signal processing are...
In this paper we present a novel non-iterative algorithm for identifying linear time-invariant discr...
We present a new method to study linear systems that exhibit time-varying characteristics and are go...
The frequency representation of periodic and aperiodic signals indicates how their power or energy i...
Multiple-input multiple-output (MIMO) random systems are a common model for stochastic phenomena. Th...
We obtain the approximate analytic time-frequency spectrum of the output of a dynamical system when ...
Dynamical systems represent fundamental models for vibration analysis. When the input of such dynami...
We obtain the time-frequency response of the output of a dynamical system when the input belongs to ...
This work investigates methods for the analysis and synthesis of nonstationary signals using time-fr...
Due to the importance of non-stationary components in vibration signals, several studies in the past...
In this paper we study how a system with a time-periodic impulse response may be expanded into a sum...
The chapter describes the time-frequency representation of nonstationary signals and system
We discuss the application of time-frequency analysis to biomechanical-type signals, and in particul...
This paper deals with the modelization and detection of non-stationary random signals in the time-fr...
This article describes a new frequency- domain multi-input multioutput linear time-invariant (LTI) s...
Representation of signals in time and frequency domain has been of interest in signal processing are...
In this paper we present a novel non-iterative algorithm for identifying linear time-invariant discr...
We present a new method to study linear systems that exhibit time-varying characteristics and are go...
The frequency representation of periodic and aperiodic signals indicates how their power or energy i...