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http://dx.doi.org/10.14372/IEMEK.2018.13.6.297

Performance Estimation for Shipboard Directional Pedestal by Using M&S Methodologies  

Lee, Sungkyun (LIGnex1)
Go, Jinyong (LIGnex1)
Han, Yongsu (LIGnex1)
Kim, Changhwan (LIGnex1)
Publication Information
IEMEK Journal of Embedded Systems and Applications / v.13, no.6, 2018 , pp. 297-303 More about this Journal
Abstract
Recently, the tasks assigned to surface ship are becoming diverse and important. In this trend, shipboard directional pedestals are widely used for surveillance and electronic warfare because ships are always under angular motion such as rolling, pitching and yawing. To estimate the performance of pedestal, the motion responses of vessel as well as mechanical characteristics of pedestal should be considered. In this study, both the motion responses of vessel which the pedestal will be mounted and the behavior of 3-axis pedestal are considered. Numerical analysis based on potential theory is used to obtained motion characteristics of vessel and then 6-DOF motions of vessel are simulated under operational condition. 1st-order time delay model and LQR control algorithm are used for modeling of pedestal drive model and control model, respectively. By using coordinate transform, the angular motions which the pedestal should compensate are calculated from the vessel's angular motion. Through these M&S methodologies, time history of pedestal behavior and maximum angular error of each pedestal axis are obtained. Overall M&S results show that 3-axis pedestal compensate the angular motion induced by vessel, efficiently.
Keywords
M&S; Directional pedestal; Surface ship; Potential theory; LQR control;
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