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http://dx.doi.org/10.7469/JKSQM.2021.49.3.245

Analysis and Improvement of Factors Influencing the Transfer Alignment of INS of Underwater Projectile  

Kim, Bo Ram (Defence agency for Technology and Quality(DTaQ))
Jung, Young Tak (Defence agency for Technology and Quality(DTaQ))
Lee, Sang Hoon (Defence agency for Technology and Quality(DTaQ))
Kim, Young Wook (LIG Nex1)
Kong, Hyeong Jik (Hanwha)
Publication Information
Journal of Korean Society for Quality Management / v.49, no.3, 2021 , pp. 245-254 More about this Journal
Abstract
Purpose: In order to accurately reach an underwater projectile to a target point, reliable INS and accurate arrangement of INS between master and slave INS is paramount. Unlike terrestrial and aerial environments, underwater projectile will operates in a restricted environment where location information cannot be received or sent through satellites. In this report, we review the factors affecting the transfer alignment of master and slave INS, as well as how to improve the positional error between INS through improved transfer alignment algorithms. Methods: In this work, we propose an improvement algorithm and verify it through simulation and driving test. The simulation confirmed the difference in the transfer alignment azimuth by fitting the MINS and SINS indoors, displacement in posture, and the process of transfer alignment between MINS and SINS through a driving test to confirm algorithm can improve the arrangement. Results: According to this study, reason for the error in the transfer alignment between MINS/SINS is the factors of the system where movements such as roll, pitch, yaw are not inter locked in real time due to the delay in transmit/receive system. And confirm that the improved algorithm has a desirable effect on accuracy. Conclusion: Through this work, it is possible to identify ways to improve the accuracy of underwater projectiles to reach their target points under various underwater environments and launch condition.
Keywords
INS; Transfer Alignment; Underwater Projectile; Time delay; Algorithm;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
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