REFERENCES
- Begambre, O., and J. E. Laier. 2009. A hybrid particle swarm optimization – simplex algorithm (PSOS) for structural damage identification. Advances in Engineering Software 40:883–891.
- Caddemi, S., and A. Morassi. 2013. Multi-cracked Euler–Bernoulli beams: Mathematical modeling and exact solutions. International Journal of Solids and Structures 50(2013):944–956.
- Casciati, S. 2008. Stiffness identification and damage localization via differential evolution algorithms. Structure Control and Health Monitoring 15:436–449.
- Cawley, P., and R. D. Adams. 1979. Location of defects in structures from measurements of natural frequencies. Journal of Strain Analysis for Engineering Design 14:49–57.
- Chatterjee, A., and P. Siarry. 2006. Nonlinear inertia weight variation for dynamic adaptation in particle swarm optimization, Computers and Operation Researches 33:859–871.
- Chondros, T. G., A. D. Dimarogonas, and J. Yao. 1998. A continuous cracked beam vibration theory. Journal of Sound and Vibration 215:17–34.
- Clerc, M. 1999. The swarm and the queen: Towards a deterministic and adaptive particle swarm optimization. In Proceedings of the ICEC, 1951–1957. Washington, DC: ICEC.
- Dimarogonas, A. D., and C. Papadopoulos. 1983. Vibrations of cracked shafts in bending. Journal of Sound and Vibration 91:583–593.
- Dixit, A., and S. Hanagud. 2011. Single beam analysis of damaged beams verified using a strain energy based damage measure. International Journal of Solids and Structures 48:592–602.
- Doebling, S. W., C. R. Farrar, and M. B. Prime. 1998. A summary review of vibration based damage identification methods, The Shock and Vibration Digest 30(2):91–105.
- Haas, D. J., and C. G. Schaefer Jr. 1996. Emerging technologies for rotor system health monitoring, in: American Helicopter Society 52nd Annual Forum 2:1717–1731.
- Hu, N., H. Fukunaga, M. Kameyama, D. Roy Mahapatra, and S. Gopalakrishnan. 2007. Analysis of wave propagation in beams with transverse and lateral cracks using a weakly formulated spectral method. Journal of Applied Mechanics 74:119–127.
- Kang, F., Li Jun-jie, and Q. Xu. 2012. Damage detection based on improved particle swarm optimization using vibration data. Applied Soft Computing 12:2329–2335.
- Kennedy, J., and R. Eberhart. 1995. Particle swarm optimization. In Proceedings of the IEEE International Conference on Neural Networks 4:1942–1948.
- Khaji, N., M. Shafiei, and M. Jalalpour. 2009. Closed-form solutions for crack detection problem of Timoshenko beams with various boundary conditions. International Journal of Mechanical Sciences 51:667–681.
- Lin, H.-P. 2004. Direct and inverse methods on free vibration analysis of simply supported beams with a crack. Engineering Structures 26:427–436.
- Marinaki, M., Y. Marinakis, and G. E. Stavroulakis. 2010. Fuzzy control optimized by PSO for vibration suppression of beams. Control Engineering Practice 18:618–629.
- Mehrjoo, M., N. Khaji, and M. Ghafory-Ashtiany. 2013. Application of genetic algorithm in crack detection of beam-like structures using a new cracked Euler–Bernoulli beam element. Applied Soft Computing 13:867–880.
- Nahvi, H., and M. Jabbari. 2005. Crack detection in beams using experimental modal data and finite element method. International Journal of Mechanical Sciences 47:1477–1497.
- Qian, G. L., S. N. Gu, and J. S. Jiang. 1990. The dynamic behavior and crack detection of a beam with a crack. Journal of Sound and Vibrations 138(2):233–243.
- Richardson, M. H. 1980. Detection of damage in structures from changes in their dynamic (modal) properties: A survey ( NUREG/CR-1431, Washington, D.C.: US Nuclear Regulatory Commission).
- Sahin, M; and R. A. Shenoi. 2003. Quantification and localisation of damage in beam-like structures by using artificial neural networks with experimental validation. Engineering Structures 25:1785–1802.
- Sahoo, B., and D. Maity. 2007. Damage assessment of structures using hybrid neuro-genetic algorithm. Applied Soft Computing 7:89–104.
- Samanta, B., and C. Nataraj. 2009. Use of particle swarm optimization for machinery fault detection. Engineering Applications of Artificial Intelligence 22:308–316.
- Tada, H., P. C. Paris, and G. R. Irwin. 1973. The stress analysis of cracks hand book. Hellertown, PA: Del Research Corp.
- Vakil Baghmisheh, M. T., M. Peimani, M. H. Sadeghi, M. M. Ettefagh, and A. F.Tabrizi. 2012. A hybrid particle swarm-Nelder–Mead optimization method for crack detection in cantilever beams. Applied Soft Computing 12:2217–2226.
- Vakil-Baghmisheh, M. T., M. Peimani, M. H. Sadeghi, and M. M. Ettefagh. 2008. Crack detection in beam-like structures using genetic algorithms. Journal of Applied Soft Computing 8:1150–1160.
- Viola, E., L. Federici, and L. Nobile. 2001. Detection of crack location using cracked beam element method for structural analysis. Journal of Theoretical and Applied Fracture Mechanics 36:23–35.
- Wu, N., and Q. Wang. 2011. Experimental studies on damage detection of beam structures with wavelet transform. International Journal of Engineering Sciences 49:253–261.
- Yang, X. F., A. S. J. Swamidas, and R. Seshadri. 2001. Crack identification in vibrating beams using energy method. Journal of Sound and Vibration 224:339–357.
- Yuen, M. M. F. 1985. A numerical study of the eigenparameters of a damaged cantilever. Journal of Sound and Vibration 103:301–310.