@misc{Grębowski_Karol_Cable-stayed,
 author={Grębowski, Karol and Werdon, Małgorzata},
 howpublished={online},
 publisher={Zielona Góra: Uniwersytet Zielonogórski},
 language={eng},
 abstract={The article presents numerical simulations for the modelling of seismic impact on the structure of unique cantilever cablestayed structure with the application of two methods. The Response Spectrum method, in which a spectrum of the structure?s responses to an earthquake`s impact is generated, and the Accelerogram method, in which we generate dynamic load in the form of a diagram of the connection between acceleration and time for the actual readings during a real earthquake. Both methods have been presented for the El Centro earthquake spectrum.},
 abstract={This unique application of a cantilever cablestayed structure in public buildings will allow to assess the safety of this kind of load-bearing system in areas of increased risk of seismic activity. Cantilever cablestayed structures have so far never been designed or analyzed on seismically active areas. Based on numerical simulation we determined the effect of stiffness of load-bearing lines on the increase of stresses and displacements at cable stays joint with the end of the cantilever part of a building.},
 type={artykuł},
 title={Cable-stayed cantilever structures as an expat of unique application in the construction of a building located in seismic area - an author`s project of multifunctional building in Lisbon, Portugal},
 keywords={cantilever structures, seismic analysis, dynamic analysis, cable-stayed structures},
}