Add to ORKGA number of techniques for dealing with important technical aspects of the random vibration control problem are described. These include the generation of pseudo-random and true random noise, the control spectrum estimation problem, the accuracy/speed tradeoff, and control correction strategies. System hardware, the operator-system interface, safety features, and operational capabilities of sophisticated digital random vibration control systems are also discussed
During environment testing, it is always assumed that the random vibration simulated follows normal ...
The random vibration response of a gas bearing rotor support system has been experimentally and anal...
The paper explains the advantages of digital processing of dynamic data compared to analogue methods...
The advantages of the digital methods over the analog vibration methods are demonstrated. The follow...
System features quickly achieved steady state, increased accuracy of spectrum definition, and true G...
The use of random signal analysis in vibration and structural analysis is discussed and documented. ...
Random Vibrations: Theory and Practice covers the theory and analysis of mechanical and structural s...
Random vibration is the phenomenon wherein random excitation applied to a mechanical system induces ...
The theory of the control of multiple shakers driving a single test item is reviewed. Several improv...
This paper proposes a novel experimental test procedure to estimate the reliability of structural dy...
Spectral methods and algorithms for the synthesis of forming filters and statistical analysis of non...
This book is a result of many years of author's research and teaching on random vibration and contro...
[[abstract]]The random vibration control of an inverter-fed electrodynamic shaker is presented in th...
Random processes such as temperature and acoustic noise are found in all types of mechanical systems...
Approximated maximal vibratory response of linear excited system to time modulated stationary random...
During environment testing, it is always assumed that the random vibration simulated follows normal ...
The random vibration response of a gas bearing rotor support system has been experimentally and anal...
The paper explains the advantages of digital processing of dynamic data compared to analogue methods...
The advantages of the digital methods over the analog vibration methods are demonstrated. The follow...
System features quickly achieved steady state, increased accuracy of spectrum definition, and true G...
The use of random signal analysis in vibration and structural analysis is discussed and documented. ...
Random Vibrations: Theory and Practice covers the theory and analysis of mechanical and structural s...
Random vibration is the phenomenon wherein random excitation applied to a mechanical system induces ...
The theory of the control of multiple shakers driving a single test item is reviewed. Several improv...
This paper proposes a novel experimental test procedure to estimate the reliability of structural dy...
Spectral methods and algorithms for the synthesis of forming filters and statistical analysis of non...
This book is a result of many years of author's research and teaching on random vibration and contro...
[[abstract]]The random vibration control of an inverter-fed electrodynamic shaker is presented in th...
Random processes such as temperature and acoustic noise are found in all types of mechanical systems...
Approximated maximal vibratory response of linear excited system to time modulated stationary random...
During environment testing, it is always assumed that the random vibration simulated follows normal ...
The random vibration response of a gas bearing rotor support system has been experimentally and anal...
The paper explains the advantages of digital processing of dynamic data compared to analogue methods...