The dynamic response characterization of a complex system comprises of multiple heterogeneous substructures remains one of the most challenging problems in structural dynamics. Inherent uncertainties and the high dimensionality of the problem led to develop approaches imported also from other areas of physics and engineering. In this paper a new approach, namely the Time Asymptotic ensemble Energy average (TAE), a statistical method for the prediction of the transient energy sharing among two or more subsystems, for both weak and strong coupling is developed. The originality of this method relies on an asymptotic expansion technique, able to evaluate the energy distribution among the subcomponents of a system in transient and steady sta...
In this paper the energy flow confidence between two structural multimodal systems coupled by a join...
Statistical energy analysis (SEA), a vibration analysis approach to estimate the dynamic response va...
The analysis of the structural dynamics of a complex engineering structure has much in common with t...
A new approach for predicting the response of a complex and uncertain structural-acoustic system was...
Statistical energy analysis (SEA) is a prominent method for predicting the high frequency response o...
Statistical energy analysis (SEA) is a prominent method for predicting the high frequency response o...
This paper attempts to introduce a new point of view on energy analysis in structural dynamics with ...
Expressions are derived for the ensemble means and variances of the subsystem energies of built-up s...
Statistical Energy Analysis (SEA) is an approach to vibration analysis which provides estimates of t...
Statistical Energy Analysis is a method commonly used in the engineering analysis of complex dynamic...
One of the main requirements for the successful use of traditional Statistical Energy Analysis (SEA)...
For more than twenty years, statistical energy analysis (SEA) Introduction Statistical energy ana...
A wave-based method is presented for the analysis of high-frequency vibrations in complex structures...
In this paper the energy flow confidence between two structural multimodal systems coupled by a join...
Statistical Energy Analysis (SEA) is a well-established method for predicting the response of comple...
In this paper the energy flow confidence between two structural multimodal systems coupled by a join...
Statistical energy analysis (SEA), a vibration analysis approach to estimate the dynamic response va...
The analysis of the structural dynamics of a complex engineering structure has much in common with t...
A new approach for predicting the response of a complex and uncertain structural-acoustic system was...
Statistical energy analysis (SEA) is a prominent method for predicting the high frequency response o...
Statistical energy analysis (SEA) is a prominent method for predicting the high frequency response o...
This paper attempts to introduce a new point of view on energy analysis in structural dynamics with ...
Expressions are derived for the ensemble means and variances of the subsystem energies of built-up s...
Statistical Energy Analysis (SEA) is an approach to vibration analysis which provides estimates of t...
Statistical Energy Analysis is a method commonly used in the engineering analysis of complex dynamic...
One of the main requirements for the successful use of traditional Statistical Energy Analysis (SEA)...
For more than twenty years, statistical energy analysis (SEA) Introduction Statistical energy ana...
A wave-based method is presented for the analysis of high-frequency vibrations in complex structures...
In this paper the energy flow confidence between two structural multimodal systems coupled by a join...
Statistical Energy Analysis (SEA) is a well-established method for predicting the response of comple...
In this paper the energy flow confidence between two structural multimodal systems coupled by a join...
Statistical energy analysis (SEA), a vibration analysis approach to estimate the dynamic response va...
The analysis of the structural dynamics of a complex engineering structure has much in common with t...