Obtaining 3D High-Resolution Underwater Acoustic Images by Synthesizing Virtual Aperture on the 2D Transducer Array of Multibeam Echo Sounder

Wei, Bo; Li, Haisen S.; Zhou, Tian; Xing, Siyu

doi:10.3390/rs11222615

Cited by 11 publications

(5 citation statements)

References 22 publications

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“…The problem of waveform broadening can also be suppressed by using a wideband signal. Estimating target orientation using a new method (such as the multi-subarray detection method) can improve the orientation estimation accuracy of the outer signal (Li et al, 2018;Wei et al, 2019).…”

Section: Accuracymentioning

confidence: 99%

Exploring modern bathymetry: A comprehensive review of data acquisition devices, model accuracy, and interpolation techniques for enhanced underwater mapping

Peng

Zhang

et al. 2023

Front. Mar. Sci.

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Building a high-precision bathymetry digital elevation model is essential for navigation planning, marine and lake resource planning, port construction, and underwater archaeological projects. However, existing bathymetry methods have yet to be effectively and comparatively analyzed. This paper comprehensively reviews state-of-the-art bathymetry methods, including data acquisition techniques, model accuracy, and interpolation algorithms for underwater terrain mapping. First, We assess the merits and drawbacks of novel data acquisition devices, such as single-beam/multi-beam echo sounders and light detection and ranging systems. After that, we analyze the accuracy of the ETOPO1, GEBCO_2022 and SRTM15 to provide valuable insights into their performance. Furthermore, we evaluate ANUDEM, Inverse Distance Weighting, Kriging and Nearest Neighbor interpolation algorithms in different underwater terrains by comparing their applicability, reliability, and accuracy in various underwater environments. Finally, we discuss the development trends and challenges in underwater bathymetry technology and offer a forward-looking perspective on the future of this essential field.

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Section: Accuracymentioning

confidence: 99%

Exploring modern bathymetry: A comprehensive review of data acquisition devices, model accuracy, and interpolation techniques for enhanced underwater mapping

Peng

Zhang

et al. 2023

Front. Mar. Sci.

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“…These are responsible for tasks such as acoustic wave transmission and reception, data correction, data conversion, and comprehensive data processing, respectively [45]. Coherent research has mechanically solved the problem of limited resolution in multibeam bathymetry, caused by the number of beams [46], greatly improving the resolution of multibeam bathymetry data.…”

Section: ) Terrain Depth Soundermentioning

confidence: 99%

Survey of Terrain-Aided Navigation Methods for Underwater Vehicles

et al. 2023

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The prerequisite for underwater vehicles to accomplish various underwater tasks is to obtain real-time position information about themselves in the underwater environment using internal or external sensors, which is known as underwater positioning and navigation technology. This paper presents a general review of underwater vehicle positioning and navigation technology and illustrates the importance of underwater terrain-aided navigation technology. It also summarizes its general structure and describes the principles and functions of each component. The paper mainly analyzes various mainstream methods applied to underwater terrain-aided navigation, focuses on terrain suitability analysis and terrain matching algorithms, which play a central role in the analysis. Additionally, the research progress of terrain-aided navigation technology is described, and the research methods of terrain suitability analysis, terrain matching navigation, and the latest technology applications are compared. Some shortcomings of the current underwater terrain-aided navigation technology are presented, and future research directions are foreseen to provide a basis for subsequent research.

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“…1 . According to Equation ( 22), OP′1,5F is calculated as follows: Based on Equation (19), the length of OM is shown to be as follows:…”

Section: Arrangement Of the Measuring Pointsmentioning

confidence: 99%

“…The accuracy of IS on underwater objects is significantly influenced by the distance between the sonar device and the target, and the angle between the central axis of the sonar beam and the target. During sonar imaging, a wavefront expands as the distance from the source increases, and the sonar cannot recognize different objects within the same wavefront, resulting in the measurement accuracy decreasing [18][19][20]. A measurement of 60 targets with lengths in the range of 141.4-392.8 mm revealed an error exceeding 15 cm when the target was almost parallel to the IS, whereas the error was within 5 cm when the target was at an angle of 60 • to the center axis of the sonar beam; the maximum imaging accuracy was achieved when the target was perpendicular to the central axis of the sonar beam [21,22].…”

Section: Introductionmentioning

confidence: 99%

Scanning Scheme for Underwater High-Rise Pile Cap Foundation Based on Imaging Sonar

2023

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This study developed a sonar scanning scheme for underwater high-rise pile cap foundations (HRPCFs) to improve the efficiency of bridge inspection and prolong structural durability. First, two key factors in the measurement point arrangement that significantly affect the accuracy of sonar measurement—the appropriate range of measurement distance and the pitch angle—were determined experimentally. Subsequently, an assembled platform was designed to firmly hold the sonar and conveniently move it under strong currents to effectively provide clear images of the pile. A strategy was developed to determine the appropriate number and horizontal and vertical positions of the measurement points around each pile in the pile group, particularly to avoid the obstruction of signal propagation caused by adjacent piles and pile caps. The method was applied to the scanning of an underwater high-rise pile cap foundation of a bridge, and the results showed that the scanning ranges of the imaging sonar at all arranged measurement points were not affected by adjacent piles. The imaging sonar carried by the proposed platform could obtain clear images stably at a water speed of ~2.0 m/s and obtain all surface data of the pile quickly and completely.

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Obtaining 3D High-Resolution Underwater Acoustic Images by Synthesizing Virtual Aperture on the 2D Transducer Array of Multibeam Echo Sounder

Cited by 11 publications

References 22 publications

Exploring modern bathymetry: A comprehensive review of data acquisition devices, model accuracy, and interpolation techniques for enhanced underwater mapping

Exploring modern bathymetry: A comprehensive review of data acquisition devices, model accuracy, and interpolation techniques for enhanced underwater mapping

Survey of Terrain-Aided Navigation Methods for Underwater Vehicles

Scanning Scheme for Underwater High-Rise Pile Cap Foundation Based on Imaging Sonar

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