Output details
15 - General Engineering
University of Greenwich
Numerical and experimental studies of a substructural identification strategy
For structural health monitoring it is impractical to identify a large structure with complete measurement due to a limited number of sensors and difficulty in field instrumentation. Furthermore, it is not desirable to identify a large number of unknown parameters in a full system because of numerical difficulty in convergence. A novel substructural strategy was presented for identification of stiffness matrices and damage assessment with incomplete measurement. The substructural approach was employed to identify large systems in a divide-and-conquer manner and the concept of model condensation was invoked to avoid the need for complete measurement.