Add to ORKGDuring liftoff and ascent flight phases, the Space Transportation System (STS) and payloads are exposed to the random acoustic environment produced by engine exhaust plumes and aerodynamic disturbances. The analysis of payloads for randomly fluctuating loads is usually carried out using the Miles' relationship. This approximation technique computes an equivalent load factor as a function of the natural frequency of the structure, the power spectral density of the excitation, and the magnification factor at resonance. Due to the assumptions inherent in Miles' equation, random load factors are often over-estimated by this approach. In such cases, the estimates can be refined using alternate techniques such as time domain simulations or freque...
Aerospace payloads, such as satellites, are subjected to vibroacoustic excitation during launch. San...
Results are presented of a research task to evaluate structural responses at various subsystem mount...
This paper applies extrapolation technique to the prediction of acoustically induced random vibratio...
This paper examines the prediction of National Space Transportation System (NSTS) payload random vib...
This paper presents a deterministic theory for the random vibration problem for predicting the respo...
This paper presents a statistical evaluation of measured random vibration response data obtained fro...
Equations for computing noise transmitted to space vehicle inside from random loading on outsid
Space payloads, such as those which fly on the Space Shuttle in Spacelab, are designed to withstand ...
An important part of rocket engine design is the calculation of random dynamic loads resulting from ...
The general methodology for the analysis of arbitrary nonstationary random data is reviewed. A speci...
Determination of the stresses and displacements which occur in response to random excitations cannot...
A high frequency random vibration analysis, (statistical energy analysis (SEA) method) is examined. ...
The random vibration analysis of aircraft structural components is often performed with simplified t...
A significant part of the flight readiness verification process involves transient analysis of the c...
To predict the vibration environment of a payload carried by a ground or air transporter, mathematic...
Aerospace payloads, such as satellites, are subjected to vibroacoustic excitation during launch. San...
Results are presented of a research task to evaluate structural responses at various subsystem mount...
This paper applies extrapolation technique to the prediction of acoustically induced random vibratio...
This paper examines the prediction of National Space Transportation System (NSTS) payload random vib...
This paper presents a deterministic theory for the random vibration problem for predicting the respo...
This paper presents a statistical evaluation of measured random vibration response data obtained fro...
Equations for computing noise transmitted to space vehicle inside from random loading on outsid
Space payloads, such as those which fly on the Space Shuttle in Spacelab, are designed to withstand ...
An important part of rocket engine design is the calculation of random dynamic loads resulting from ...
The general methodology for the analysis of arbitrary nonstationary random data is reviewed. A speci...
Determination of the stresses and displacements which occur in response to random excitations cannot...
A high frequency random vibration analysis, (statistical energy analysis (SEA) method) is examined. ...
The random vibration analysis of aircraft structural components is often performed with simplified t...
A significant part of the flight readiness verification process involves transient analysis of the c...
To predict the vibration environment of a payload carried by a ground or air transporter, mathematic...
Aerospace payloads, such as satellites, are subjected to vibroacoustic excitation during launch. San...
Results are presented of a research task to evaluate structural responses at various subsystem mount...
This paper applies extrapolation technique to the prediction of acoustically induced random vibratio...