Matched-Phase Weighting Beamformer to Improve the Gain of a Long Linear Array in the Range-Dependent Ocean Waveguide

Xie, Lei; Sun, Chao; Kong, Dezhi

doi:10.1109/access.2020.3027045

Cited by 5 publications

(2 citation statements)

References 27 publications

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“…When the acoustic signal propagates in the ocean channel, the surface and bottom reflections produce multipath scattering [26][27][28][29]. Moreover, the sound velocity gradient causes the refraction of acoustic waves, which tend to refract toward the lower sound velocity region, leading to the propagation of the acoustic signal curve.…”

Section: Simulation Verificationmentioning

confidence: 99%

A Torpedo Target Recognition Method Based on the Correlation between Echo Broadening and Apparent Angle

Wang

et al. 2022

Applied Sciences

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As acoustic decoys can simulate the scale of the target through orderly control of the echo delay, simulated acoustic decoys have scale characteristics similar to those of the scaled target. Consequently, simulated acoustic decoys make it difficult for active acoustic homing torpedoes to recognize acoustic decoys through traditional echo broadening or apparent angle. This will lead to a decrease in the anti-interference capability of torpedoes. In combat, acoustic decoys deceive torpedoes and deviate from the tracking course so that torpedoes cannot find the real target, or waste the range, eventually failing to strike the target and failing in combat. The accurate underwater target scale recognition of active acoustic homing torpedoes is considered a difficult technique. In this paper, we propose a target recognition method based on the correlation between target echo broadening and apparent angle. This specific simulation example shows that conventional target scale recognition methods cannot distinguish between suspended and homing acoustic decoys with virtual scale. By contrast, the target scale recognition method proposed in this paper can accurately distinguish between suspended and homing acoustic decoys with virtual scale at close range, under non-positive transverse port angle conditions. This method improves the anti-interference capability of torpedoes. In addition, it can improve the accuracy of active sonar recognition scale targets of ships, which guide active sonar target recognition.

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Section: Simulation Verificationmentioning

confidence: 99%

A Torpedo Target Recognition Method Based on the Correlation between Echo Broadening and Apparent Angle

Wang

et al. 2022

Applied Sciences

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“…Additive manufacturing is a rapidly growing area in almost all industries, but traditionally, the most demanded applications of these methods relate to the fabrication of metallic components [ 1 , 2 , 3 , 4 ]. While many alloys and composites are made using traditional casting or powder manufacturing methods, additive manufacturing offers new solutions for in situ control and modification of the alloy microstructure [ 5 , 6 , 7 , 8 , 9 , 10 , 11 ]. Electron beam wire additive manufacturing is a highly productive process that allows simultaneous additive deposition of dissimilar metals and in situ forming a composite [ 1 , 12 , 13 ].…”

Section: Introductionmentioning

confidence: 99%

Microstructures and Phases in Electron Beam Additively Manufactured Ti-Al-Mo-Z-V/CuAl9Mn2 Alloy

et al. 2023

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Electron beam additive manufacturing from dissimilar metal wires was used to intermix 5, 10 and 15 vol.% of Ti-Al-Mo-Z-V titanium alloy with CuAl9Mn2 bronze on a stainless steel substrate. The resulting alloys were subjected to investigations into their microstructural, phase and mechanical characteristics. It was shown that different microstructures were formed in an alloy containing 5 vol.% titanium alloy, as well as others containing 10 and 15 vol.%. The first was characterized by structural components such as solid solution, eutectic intermetallic compound TiCu2Al and coarse grains of γ1-Al4Cu9. It had enhanced strength and demonstrated steady oxidation wear in sliding tests. The other two alloys also contained large flower-like Ti(Cu,Al)2 dendrites that appeared due to the thermal decomposition of γ1-Al4Cu9. This structural transformation resulted in catastrophic embrittlement of the composite and changing of wear mechanism from oxidative to abrasive.

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Directional Response of a Horizontal Linear Array to an Acoustic Source at Close Range in Deep Water

Zhang

et al. 2021

Acoust Aust

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Matched-Phase Weighting Beamformer to Improve the Gain of a Long Linear Array in the Range-Dependent Ocean Waveguide

Cited by 5 publications

References 27 publications

A Torpedo Target Recognition Method Based on the Correlation between Echo Broadening and Apparent Angle

A Torpedo Target Recognition Method Based on the Correlation between Echo Broadening and Apparent Angle

Microstructures and Phases in Electron Beam Additively Manufactured Ti-Al-Mo-Z-V/CuAl9Mn2 Alloy

Directional Response of a Horizontal Linear Array to an Acoustic Source at Close Range in Deep Water

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