Title :
Discriminating physical poles from mathematical poles in high order systems: use and automation of the stabilization diagram
Author :
Van der Auweraer, Herman ; Peeters, Bart
Author_Institution :
LMS Int., Leuven, Belgium
Abstract :
System identification from measured MIMO data plays a crucial role in structural dynamics and vibro-acoustic system optimization. The most popular modeling approach is based on the i modal analysis concept, leading to an interpretation in terms of visualized eigenmodes. Typically, the number of nodes is very high (often over 100), including modes with high damping and high modal overlap. The paper discusses a key problem of the system identification process: the selection of the correct model order and related to this, the selection of valid system poles. A multi-order approach, followed by a heuristic selection process is outlined. A visual representation of the pole behavior is presented and the possible routes to automation are discussed. The process is illustrated with typical complex datasets, including full-scale industrial tests.
Keywords :
MIMO systems; damping; eigenvalues and eigenfunctions; modal analysis; parameter estimation; pole assignment; stability criteria; zero assignment; MIMO data; automation; complex datasets; correct model order; heuristic selection process; high damping; high modal overlap; high order systems; mathematical poles; modal analysis; modal parameter estimation; multi-order approach; physical poles discrimination; stability criteria; stabilization diagram; system identification; valid system poles; visualized eigenmodes; Automation; Damping; Modal analysis; Noise measurement; Noise reduction; Resonance; Resonant frequency; Size measurement; System identification; Vibrations;
Conference_Titel :
Instrumentation and Measurement Technology Conference, 2004. IMTC 04. Proceedings of the 21st IEEE
Print_ISBN :
0-7803-8248-X
DOI :
10.1109/IMTC.2004.1351525
