An In-situ Correction Method of Position Error for an Autonomous Underwater Vehicle Surveying the Sea Floor
- Authors
- 이판묵; 전봉환; 박진영; 심형원; 김재수; 정훈상; 윤지영
- Issue Date
- 6월-2011
- Publisher
- 한국해양공학회
- Keywords
- Autonomous underwater vehicle; Position error; In-situ correction; Least square method; Monte Carlo simulation
- Citation
- International Journal of Ocean System Engineering, v.1, no.2, pp 60 - 67
- Pages
- 8
- Journal Title
- International Journal of Ocean System Engineering
- Volume
- 1
- Number
- 2
- Start Page
- 60
- End Page
- 67
- URI
- https://www.kriso.re.kr/sciwatch/handle/2021.sw.kriso/9249
- DOI
- 10.5574/IJOSE.2011.1.2.060
- Abstract
- This paper presents an in-situ correction method to compensate for the position error of
an autonomous under-water vehicle (AUV) near the sea floor. AUVs generally have an
inertial navigation system assisted with auxiliary navigational sensors. Since the
inertial navigation system shows drift in position without the bottom reflection of a
Doppler velocity log, external acoustic positioning systems, such as an ultra short
baseline (USBL), are needed to set the position without surfacing the AUV. The main
concept of the correction method is as follows: when the AUV arrives near the sea floor,
the vehicle moves around horizontally in a circular mode, while the USBL transceiver
installed on a surface vessel measures the AUVs position. After acquiring one data set,
a least-square curve fitting method is adopted to find the center of the AUVs circular
motion, which is transferred to the AUV via an acoustic telemetry modem (ATM). The
proposed method is robust for the outlier of USBL, and it is independent of the time
delay for the data transfer of the USBL position with the ATM. The proposed method also
reduces the intrinsic position error of the USBL, and is applicable to the in-situ
calibration as well as the initialization of the AUVs position. Monte Carlo simulation
was conducted to verify the effectiveness of the method.sensors. Since the
inertial navigation system shows drift in position without the bottom reflection of a
Doppler velocity log, external acoustic positioning systems, such as an ultra short
baseline (USBL), are needed to set the position without surfacing the AUV. The main
concept of the correction method is as follows: when the AUV arrives near the sea floor,
the vehicle moves around horizontally in a circular mode, while the USBL transceiver
installed on a surface vessel measures the AUVs position. After acquiring one data set,
a least-square curve fitting method is adopted to find the center of the AUVs cir
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