ASSESSMENT OF PARAMETERS OF LABORATORY MODEL OF TELECOMMUNICATION MAST

Authors

  • Jacek Snamina AGH University of Science and Technology
  • Paweł Orkisz AGH University of Science and Technology

Keywords:

model reduction, physically executable model, telecommunication mast

Abstract

This work presents an algorithm for determining values of parameters of a laboratory model of a telecommunication mast. The algorithm is constituted by several steps finally leading to a physically executable model, being a good representation of the dynamics of the mast construction. The calculations carried out were used for design a laboratory model of a telecommunications mast.

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References

Balas M., 1982, Theory for distributed parameter systems. Control & Dynamic Systems, Academic Press, New York.

Braun S., Ewins D., Rao S., 2002, Encyclopedia of vibration. Academic Press, London.

Conte J., Peng B., 1997, Fully nonstationary analytical earthquake ground-motion model. Journal of Engineering Mechanics, pp. 15-24.

Hori N., Seto K., 2000 Vibration control of flexible space structures based on reduced-order method and filtered LQ control theory, JSME International Journal, vol. 43, pp. 697-703.

Kowal J., Snamina J., Orkisz P., 2009, Symulacja numeryczna drgań masztu telekomunikacyjnego. Modelowanie Inżynierskie, vol. 37, pp. 177-184.

Levy R., 1976, Wind power predictions model. California.

Meirovitch L., 1990, Dynamics and control of structures. John Willey & Sons, USA.

Pluta J., Podsiadło A., Orkisz P., 2010, Elektrohydrauliczny symulator drgań konstrukcji smukłych. Hydraulika i Pneumatyka, vol. 3, pp. 10-16 (in Polish).

Preumont A., Seto K., 2008, Active control of structures. John Willey & Sons, United Kingdom.

Seto K., Mitsuta S., 1992, A new method for making a reduced order model flexible structures using unobservability and uncontrollability and its application in vibration control. Proc. of 1st International Conference on Motion and Vibration Control, pp. 152-158.

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Published

2011-09-24

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Articles