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DBpiaAbstract This paper proposes the hardware in the loop simulation (HILS) for the performance evaluation of a small attitude heading reference system (AHRS) based micro electromechanical system (MEMS), suitable for small autonomous underwater vehicles (...
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RISS 인기검색어
소형 자율 무인잠수정 MEMS 기반 자세측정장치 성능 검증을 위한 HILS = Hardware in the Loop Simulation on Micro Electro Mechanical System Attitude Heading Reference System for Small Autonomous Underwater Vehicle
한글로보기부가정보
다국어 초록 (Multilingual Abstract)
Abstract This paper proposes the hardware in the loop simulation (HILS) for the performance evaluation of a small attitude heading reference system (AHRS) based micro electromechanical system (MEMS), suitable for small autonomous underwater vehicles (AUV). AUV have many scientific, military, and commercial applications due to their autonomy. Furthermore, the navigation system is the most important system for AUV because correct position information is essential for autonomous missions. Since GPS signal is not accessible underwater, the inertial navigation system (INS) has conventionally been used as the navigation sys-tem for underwater vehicles. The MEMS AHRS will be a good alternative for the inertial sensor of INS of small AUV. Hardware in loop simulation (HILS) was performed to validate the developed MEMS AHRS with a flight motion simulator, and the results of the HILS showed that the developed MEMS AHRS is capable of providing the attitude information under roll free and no roll free conditions.
Abstract This paper proposes the hardware in the loop simulation (HILS) for the performance evaluation of a small attitude heading reference system (AHRS) based micro electromechanical system (MEMS), suitable for small autonomous underwater vehicles (AUV). AUV have many scientific, military, and commercial applications due to their autonomy. Furthermore, the navigation system is the most important system for AUV because correct position information is essential for autonomous missions. Since GPS signal is not accessible underwater, the inertial navigation system (INS) has conventionally been used as the navigation sys-tem for underwater vehicles. The MEMS AHRS will be a good alternative for the inertial sensor of INS of small AUV. Hardware in loop simulation (HILS) was performed to validate the developed MEMS AHRS with a flight motion simulator, and the results of the HILS showed that the developed MEMS AHRS is capable of providing the attitude information under roll free and no roll free conditions.
참고문헌 (Reference)
1 Ribas D, "Underwater SLAM in man-made structured environments" 25 (25): 898-921, 2008
2 Reddy NS, "Transfer orbit stage gyrocompass alignment algorithm twist and sway environment for Mars Observer mission on commercial Titan" 1991
3 Titterton DH, "Strapdown inertial navigation technology" Peter Peregrinus Ltd 1997
4 Walter M, "SLAM for ship hull inspection using exactly sparse extended information filters" IEEE 1463-1470, 2008
5 Alt C von, "REMUS 100 transportable mine countermeasure package" IEEE 2003
6 Li D, "Low-cost MEMS sensor-based attitude determination system by integration of magnetometers and GPS: A real-data test and performance evaluation" 1190-1198, 2008
7 Yim KH, "Kalman Filter with the Intelligent Algorithm for the Underwater Navigation System" 2002
8 신명인 ; 조현진 ; 이진호 ; 임준석 ; 이석진 ; 김완진 ; 김우식 ; 홍우영, "Effectiveness analysis for survival probability of a surface warship considering static and mobile decoys" 25 (25): 53-63, 2016
9 Johnson BR, "Development of a MEMS Gyroscope for Northfinding Applications" IEEE 168-170, 2010
10 황종현 ; 유태석 ; 한용수 ; 김현욱, "Development of AUV’s Waypoint Guidance Law and Verification by HILS" 24 (24): 1417-1423, 2020
1 Ribas D, "Underwater SLAM in man-made structured environments" 25 (25): 898-921, 2008
2 Reddy NS, "Transfer orbit stage gyrocompass alignment algorithm twist and sway environment for Mars Observer mission on commercial Titan" 1991
3 Titterton DH, "Strapdown inertial navigation technology" Peter Peregrinus Ltd 1997
4 Walter M, "SLAM for ship hull inspection using exactly sparse extended information filters" IEEE 1463-1470, 2008
5 Alt C von, "REMUS 100 transportable mine countermeasure package" IEEE 2003
6 Li D, "Low-cost MEMS sensor-based attitude determination system by integration of magnetometers and GPS: A real-data test and performance evaluation" 1190-1198, 2008
7 Yim KH, "Kalman Filter with the Intelligent Algorithm for the Underwater Navigation System" 2002
8 신명인 ; 조현진 ; 이진호 ; 임준석 ; 이석진 ; 김완진 ; 김우식 ; 홍우영, "Effectiveness analysis for survival probability of a surface warship considering static and mobile decoys" 25 (25): 53-63, 2016
9 Johnson BR, "Development of a MEMS Gyroscope for Northfinding Applications" IEEE 168-170, 2010
10 황종현 ; 유태석 ; 한용수 ; 김현욱, "Development of AUV’s Waypoint Guidance Law and Verification by HILS" 24 (24): 1417-1423, 2020
11 정석기 ; 고낙용 ; 최현택, "Comparison of Attitude Estimation Methods for DVL Navigation of a UUV" 9 (9): 216-224, 2014
12 Kondo H, "AUV navigation based on multi-sensor fusion for breakwater observation" 72-77, 2006
13 Li Y, "A low cost attitude heading reference system by combination of GPS and magnetometers and MEMS inertial sensors for mobile applications" 5 (5): 88-95, 2006
14 황아롬 ; 윤선일, "A Study on Attitude Heading Reference System Based Micro Machined Electro Mechanical System for Small Military Unmanned Underwater Vehicle" 39 (39): 522-526, 2015
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