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مرکز علم و دانش کشور مقاله Automatic formulation of falling multiple flexible-link robotic manipulators using 3×۳ rotational matrices
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فایل ورد مقاله Automatic formulation of falling multiple flexible-link robotic manipulators using 3×۳ rotational matrices کاملا فرمت بندی و تنظیم شده در استاندارد دانشگاه و مراکز دولتی می باشد.
توجه : در صورت مشاهده بهم ریختگی احتمالی در متون زیر ،دلیل ان کپی کردن این مطالب از داخل فایل ورد می باشد و در فایل اصلی مقاله Automatic formulation of falling multiple flexible-link robotic manipulators using 3×۳ rotational matrices،به هیچ وجه بهم ریختگی وجود ندارد
بخشی از متن مقاله Automatic formulation of falling multiple flexible-link robotic manipulators using 3×۳ rotational matrices :
سال انتشار : ۲۰۱۷
تعداد صفحات :۳۸
In this paper, the effect of normal impact on the mathematical modeling of flexible multiple links is investigated. The response of such a system can be fully determined by two distinct solution procedures. Highly nonlinear differential equations are exploited to model the falling phase of the system prior to normal impact; and algebraic equations are used to model the normal collision of this open-chain robotic system. To avoid employing the Lagrangian method which suffers from too many differentiations, the governing equations of such complicated system are acquired via the Gibbs-Appell (G-A) methodology. The main contribution of the present work is the use of an automatic algorithm according to 3×3 rotational matrices to obtain the system’s motion equations more efficiently. Accordingly, all mathematical formulations are completed by the use of 3×3 matrices and 3×1 vectors only. The dynamic responses of this system are greatly reliant on the step sizes. Therefore, as well as solving the obtained differential equations by using several ODE solvers, a computer program according to the Runge-Kutta method was also developed. Finally, the computational counts of both algorithms i.e., 3×3 rotational matrices and 4×4 transformation matrices are compared to prove the efficiency of the former in deriving the motion equations.
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