damage detection of skeletal structures using particle swarm optimizer with passive congregation (psopc) algorithm via incomplete modal data
Authors
abstract
this paper uses a psopc model based non-destructive damage identification procedure using frequency and modal data. the objective function formulation for the minimization problem is based on the frequency changes. the method is demonstrated by using a cantilever beam, four-bay plane truss and two-bay two-story plane frame with different scenarios. in this study, the modal data are provided numerically using the finite element method. the effectiveness of using frequencies as the data for quantification of damage severity and location are checked. the effects of noisy incomplete data on the accuracy of damage detection with psopc algorithm are also discussed.
similar resources
Damage detection of skeletal structures using particle swarm optimizer with passive congregation (PSOPC) algorithm via incomplete modal data
This paper uses a PSOPC model based non-destructive damage identification procedure using frequency and modal data. The objective function formulation for the minimization problem is based on the frequency changes. The method is demonstrated by using a cantilever beam, four-bay plane truss and two-bay two-story plane frame with different scenarios. In this study, the modal data are provided nume...
full textdamage detection in skeletal structures based on charged system search optimization using incomplete modal data
it is well known that damaged structural members may alter the behaviour of the structures considerably. careful observation of these changes has often been viewed as a means to identify and assess the location and severity of damages in structures. among the responses of a structure, natural frequencies and natural modes are both relatively easy to obtain and independent from external excitati...
full textDamage detection in skeletal structures based on charged system search optimization using incomplete modal data
It is well known that damaged structural members may considerably alter the behaviour of the structures. Careful observation of these changes has often been viewed as a means to identify and assess the location and severity of damages in structures. Among the responses of a structure, natural frequencies and mode shapes are both relatively easy to obtain and independent from external excitation...
full textJAYA ALGORITHM WITH PASSIVE CONGREGATION FOR DESIGN OF STRUCTURES WITH DIAGONAL MEMBERS
Partricular features of overpassing local optima and providing near-optimal soultion in practical time has led researchers to apply metaheuristics in several engineering problems. Optimal design of diagrids as one of the most efficient structural systems in tall buildings has been concerned here. Jaya algorithm as a recent paramter-less optimization method is employed to solve the problem using...
full textDamage detection of structures using modal strain energy with Guyan reduction method
The subject of structural health monitoring and damage identification of structures at the earliest possible stage has been a noteworthy topic for researchers in the last years. Modal strain energy (MSE) based index is one of the efficient methods which are commonly used for detecting damage in structures. It is also more effective and economical to employ some methods for reducing the degrees ...
full textEconomic Design of Retaining Wall Using Particle Swarm Optimization with Passive Congregation
This paper presents an effective optimization method for nonlinear constrained optimization of retaining structures. The proposed algorithm is based on the particle swarm optimization with passive congregation. The optimization procedure controls all geotechnical and structural design constraints while reducing the overall cost of the retaining wall. To applying the constraints, the algorithm e...
full textMy Resources
Save resource for easier access later
Journal title:
computational methods in civil engineeringPublisher: university of guilan
ISSN
volume 3
issue 1 2012
Hosted on Doprax cloud platform doprax.com
copyright © 2015-2023