Open AccessComputationally Fast Dynamical Model of a SATCOM Antenna Suitable for Extensive Optimization Tasks
Author(s) -
Jan Najman,
Michal Bastl,
Martin Appel,
R. Grepl
Publication year - 2019
Publication title -
advances in military technology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.137
H-Index - 11
eISSN - 2533-4123
pISSN - 1802-2308
DOI - 10.3849/aimt.01259
Subject(s) - computer science , process (computing) , antenna (radio) , satellite , control (management) , communications satellite , control engineering , simulation , engineering , artificial intelligence , telecommunications , aerospace engineering , operating system
Development of new SATCOM (Satellite Communications) antennas and their control systems is a complex problem, in which strict requirements for mechanical design, drives, sensors and the overall speed and accuracy of the control algorithm must be met. Therefore, a simulation model is often used at different stages of development, which greatly accelerates the process of designing and optimizing the whole system. The computationally most demanding part of the simulation is the dynamical model of antenna. This article proposes an alternative approach for dynamical model creation, and the results are compared to a model created by using a universal multibody simulation environment. It is shown that the proposed new approach gives nearly the same-quality results and it is several times computationally faster.