Table of Contents
1. The dynamic model of a combat target homing system of an unmanned aerial vehicle | |
Zbigniew Koruba, Edyta Ładyżyńska-Kozdraś | 551-566 |
2. Two-stage optimization method with fatigue constraints for thin-walled structures | |
Mirosław Mrzygłód | 567-578 |
3. Neuro-wavelet damage detection technique in beam, plate and shell structures with experimental validation | |
Magdalena Rucka, Krzysztof Wilde | 579-604 |
4. Two calculation schemes for determination of thermal stresses due to frictional heating during braking | |
Aleksander Yevtushenko, Michał Kuciej | 605-621 |
5. Identification of optimal multibody vehicle models for crash analysis | |
Marta Carvalho, Jorge Ambrósio | 623-643 |
6. Optimal axial tension and internal pressure stabilizing post-buckling path for cylindrical shells under torsion | |
Jacek Krużelecki, Daniel Trybuła | 645-658 |
7. Analysis of magnetic field effect on ferromagnetic spheres embedded in elastomer pattern | |
Anna Boczkowska, Leszek Czechowski, Mieczysław Jaroniek, Tadeusz Niezgoda | 659-676 |
8. Analysis of movement of the BOP crane under sea weaving conditions | |
Andrzej Urbaś, Marek Szczotka, Andrzej Maczyński | 677-701 |
9. Static and dynamic interactive buckling regarding axial extension mode of thin-walled channel | |
Zbigniew Kołakowski | 703-714 |
10. Study operation of the active suspension system of a heavy machine cab | |
Grzegorz Tora | 715-731 |
11. Interactive multibody simulation in augmented reality | |
Pier Paolo Valentini, Eugenio Pezzuti | 733-750 |
12. A railway wheel wear prediction tool based on a multibody software | |
João Pombo, Jorge Ambrósio, Manuel Pereira, Roger Lewis, Rob Dwyer-Joyce, Caterina Ariaudo, Naim Kuka | 751-770 |
13. Co-rotational formulation of a solid-shell element utilizing the ANS and EAS methods | |
Cengiz Polat | 771-788 |
14. A new 2D single series model of transverse vibration of a multi-layered sandwich beam with perfectly clamped edges | |
Stanisław Karczmarzyk | 789-812 |
15. Undesidered drift of multibody models excited by measured accelerations or forces | |
Michael Speckert, Nikolaus Ruf, Klaus Dressler | 813-837 |