Abstract
An accurate observation model and statistical model are critical in underwater integrated navigation. However, it is often the case that the statistical characteristics of noise are unknown through the ultra-short baseline (USBL) system/Doppler velocity log (DVL) integrated navigation in the deep-sea. Additionally, the velocity of underwater vehicles relative to the bottom of the sea or the currents is commonly provided by the DVL, and an adaptive filtering solution is needed to correctly estimate the velocity with unknown currents. This paper focuses on the estimation of unknown currents and measurement noise covariance for an underwater vehicle based on the USBL, DVL, and a pressure gauge (PG), and proposes a novel unbiased adaptive two-stage information filter (ATSIF) for the underwater vehicle (UV) with an unknown time-varying currents velocity. In the proposed algorithm, the adaptive filter is decomposed into a standard information filter and an unknown currents velocity information filter with interconnections, and the time-varying unknown ocean currents and measurement noise covariance are estimated. The simulation and experimental results illustrate that the proposed algorithm can make full use of high-precision observation information and has better robustness and navigation accuracy to deal with time-varying currents and measurement outliers than existing state-of-the-art algorithms.
Highlights
The underwater vehicle (UV) remains the best option for manipulation tasks, such as sampling, detailed inspection, and servicing subsea instruments
A numerical example of an underwater vehicle tracking problem is given to illustrate the effectiveness of the proposed adaptive filtering approach
An unbiased adaptive two-stage information filter was proposed to estimate the position of the UV and unknown current velocity
Summary
The underwater vehicle (UV) remains the best option for manipulation tasks, such as sampling, detailed inspection, and servicing subsea instruments. In deep-sea, the UV is dependent on the navigation ability to perform long-range and long-term missions near the sea bottom to support a wide range of ocean surveys. Numerous underwater navigation schemes have been proposed [1,2,3]. The ultrashort baseline (USBL) system/Doppler velocity log (DVL). Integrated navigation is one of the most important ones, since it provides absolute position and is not prone to dead reckoning error in deep-sea. The USBL system and the DVL are complementary, and conveniently installed in the hull and extensively applied to underwater positioning [4,5]. The UV is usually outfitted with a pressure sensor, and the vehicle depth is computed from the direct measurements of the ambient sea water pressure via standard equations for the properties of sea water [6,7]. Combined with the calibration and compensation for Sensors 2020, 20, 6029; doi:10.3390/s20216029 www.mdpi.com/journal/sensors
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