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Your search keyword '"Byun, Gihoon"' showing total 41 results
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41 results on '"Byun, Gihoon"'

1. Improvement of a Green's Function Estimation for a Moving Source Using the Waveguide Invariant Theory.

Author

Kim, Daehwan, Kim, Donghyeon, Byun, Gihoon, Kim, Jeasoo, and Song, Heechun

Subjects
GREEN'S functions, UNDERWATER acoustics, IMPULSE response, ACOUSTIC models, SIGNAL-to-noise ratio
Abstract

Understanding the characteristics of underwater sound channels is essential for various remote sensing applications. Typically, the time-domain Green's function or channel impulse response (CIR) is obtained using computationally intensive acoustic propagation models that rely on accurate environmental data, such as sound speed profiles and bathymetry. Ray-based blind deconvolution (RBD) offers a less computationally demanding alternative using plane-wave beamforming to estimate the Green's function. However, the presence of noise can obscure low coherence ray arrivals, making accurate estimation challenging. This paper introduces a method using the waveguide invariant to improve the signal-to-noise ratio (SNR) of broadband Green's functions for a moving source without prior knowledge of range. By utilizing RBD and the frequency shifts from the striation slope, we coherently combine individual Green's functions at adjacent ranges, significantly improving the SNR. In this study, we demonstrated the proposed method via simulation and broadband noise data (200–900 Hz) collected from a moving ship in 100 m deep shallow water. [ABSTRACT FROM AUTHOR]

Published
2024
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2. Adaptive iterative transfer learning for effective snapping shrimp sound detection.

Author

Lee, Dawoon, Byun, Gihoon, and Chung, Wookeen

Subjects
*RANDOM noise theory, *BIOACOUSTICS, *SHRIMPS, *NOISE, *SOUNDS, *ITERATIVE learning control
Abstract

This study aims to detect the bioacoustics signal in the underwater soundscape, specifically those produced by snapping shrimp, using adaptive iterative transfer learning. The proposed network is initially trained with pre-classified snapping shrimp sounds and Gaussian noise, then applied to classify and remove snapping-free noise from field data. This separated ambient noise is subsequently used for transfer learning. This process was iterated to distinguish more effectively between ambient noise and snapping shrimp sounds characteristics, resulting in improved classification. Through iterative transfer learning, significant improvements in precision and recall were observed. The application to field data confirmed that the trained network could detect signals that were difficult to identify using existing threshold classification methods. Furthermore, it was found that the rate of false detection decreased, and detection probability improved with each stage. This research demonstrates that incorporating the noise characteristics of field data into the trained network via iterative transfer learning can generate more realistic training data. The proposed network can successfully detect signals that are challenging to identify using existing threshold classification methods. [ABSTRACT FROM AUTHOR]

Published
2024
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11. Direction-of-Arrival Estimation Based on Frequency Difference–Wavenumber Analysis for Sparse Vertical Array Configuration.

Author

Kim, Donghyeon, Byun, Gihoon, and Kim, Jeasoo

Subjects
*DIRECTION of arrival estimation, *WAVENUMBER, *WATER depth, *SHRIMPS
Abstract

Frequency–wavenumber (f–k) analysis can estimate the direction of arrival (DOA) of broadband signals received on a vertical array. When the vertical array configuration is sparse, it results in an aliasing error due to spatial sampling; thus, several striation patterns can emerge in the f–k domain. This paper extends the f–k analysis to a sparse receiver-array, wherein a multitude of sidelobes prevent resolving the DOA estimates due to spatial aliasing. The frequency difference-wavenumber ( Δ f –k) analysis is developed by adopting the concept of frequency difference, and demonstrated its performance of DOA estimation to a sparse receiver array. Experimental results verify the robustness of the proposed Δ f –k analysis in the estimation of the DOA of cracking sounds generated by the snapping shrimps, which were recorded by a sparse vertical array configuration during the shallow water experiment. [ABSTRACT FROM AUTHOR]

Published
2023
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