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Assessment of the Steering Precision of a Hydrographic USV along Sounding Profiles Using a High-Precision GNSS RTK Receiver Supported Autopilot
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Abstract
Unmanned Surface Vehicles (USV) are increasingly used to perform numerous tasks connected with measurements in inland waters and seas. One of such target applications is hydrography, where traditional (manned) bathymetric measurements are increasingly often realized by unmanned surface vehicles. This pertains especially to restricted or hardly navigable waters, in which execution of hydrographic surveys with the use of USVs requires precise maneuvering. Bathymetric measurements should be realized in a way that makes it possible to determine the waterbody’s depth as precisely as possible, and this requires high-precision in navigating along planned sounding profiles. This paper presents research that aimed to determine the accuracy of unmanned surface vehicle steering in autonomous mode (with a Proportional-Integral-Derivative (PID) controller) along planned hydrographic profiles. During the measurements, a high-precision Global Navigation Satellite System (GNSS) Real Time Kinematic (RTK) positioning system based on a GNSS reference station network (positioning accuracy: 1–2 cm, p = 0.95) and a magnetic compass with the stability of course maintenance of 1°–3° Root Mean Square (RMS) were used. For the purpose of evaluating the accuracy of the vessel’s path following along sounding profiles, the cross track error (XTE) measure, i.e., the distance between an USV’s position and the hydrographic profile, calculated transversely to the course, was proposed. The tests were compared with earlier measurements taken by other unmanned surface vehicles, which followed the exact same profiles with the use of much simpler and low-cost multi-GNSS receiver (positioning accuracy: 2–2.5 m or better, p = 0.50), supported with a Fluxgate magnetic compass with a high course measurement accuracy of 0.3° ( p = 0.50 at 30 m/s). The research has shown that despite the considerable difference in the positioning accuracy of both devices and incomparably different costs of both solutions, the authors proved that the use of the GNSS RTK positioning system, as opposed to a multi-GNSS system supported with a Fluxgate magnetic compass, influences the precision of USV following sounding profiles to an insignificant extent.
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- Mariusz Specht & Cezary Specht & Andrzej Wilk & Władysław Koc & Leszek Smolarek & Krzysztof Czaplewski & Krzysztof Karwowski & Paweł S. Dąbrowski & Jacek Skibicki & Piotr Chrostowski & Jacek Szmaglińs, 2020. "Testing the Positioning Accuracy of GNSS Solutions during the Tramway Track Mobile Satellite Measurements in Diverse Urban Signal Reception Conditions," Energies, MDPI, vol. 13(14), pages 1-19, July.
- Chengxing Lv & Haisheng Yu & Zhili Hua & Lei Li & Jieru Chi, 2018. "Speed and Heading Control of an Unmanned Surface Vehicle Based on State Error PCH Principle," Mathematical Problems in Engineering, Hindawi, vol. 2018, pages 1-9, January.
- Tomasz Szot & Cezary Specht & Mariusz Specht & Pawel S Dabrowski, 2019. "Comparative analysis of positioning accuracy of Samsung Galaxy smartphones in stationary measurements," PLOS ONE, Public Library of Science, vol. 14(4), pages 1-19, April.
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Cited by:
- Songyan Niu & Qingyu Zhao & Haibiao Chen & Hang Yu & Shuangxia Niu & Linni Jian, 2022. "Underwater Wireless Charging System of Unmanned Surface Vehicles with High Power, Large Misalignment Tolerance and Light Weight: Analysis, Design and Optimization," Energies, MDPI, vol. 15(24), pages 1-19, December.
- Artur Makar, 2022. "Determination of the Minimum Safe Distance between a USV and a Hydro-Engineering Structure in a Restricted Water Region Sounding," Energies, MDPI, vol. 15(7), pages 1-17, March.
- Mariusz Specht & Cezary Specht & Andrzej Stateczny & Łukasz Marchel & Oktawia Lewicka & Monika Paliszewska-Mojsiuk & Marta Wiśniewska, 2021. "Determining the Seasonal Variability of the Territorial Sea Baseline in Poland (2018–2020) Using Integrated USV/GNSS/SBES Measurements," Energies, MDPI, vol. 14(9), pages 1-15, May.
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Keywords
Unmanned Surface Vehicle (USV); Global Navigation Satellite System (GNSS); Real Time Kinematic (RTK); bathymetric measurements; cross track error (XTE);All these keywords.
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