Statistical Energy Analysis || Statistics of Energy Flows in Spring-Coupled One-Dimensional Subsystems

The effects of damping on energy sharing in coupled systems are investigated. The approach taken is to compute the forced response patterns of various idealised systems, and from these to calculate the parameters of Statistical Energy Analysis model for the systems using the matrix inversion approac

In what follows, the analysis of Keane [1] for the energy flows around an arbitrary configuration of coupled multi-modal subsystems is extended to the case of non-conservative coupling. Here, the joints between any two subsystems are modelled by a spring and a damper, thus allowing for dissipation o

Energy flow models are derived for interconnected structures in tems of both modal and structural subsystems. The principal goal of this analysis is to develop a deterministic foundation for energy flow analysis that clarifies assumptions under which statistical energy analysis (SEA) predictions are

The response of two general spring-coupled elements is investigated to develop a unifying approach to the weak coupling criterion in Statistical Energy Analysis (SEA). First, the coupled deterministic equations of motion are expressed in the bases given by the uncoupled elements' eigenmodes. Then, a