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562 results on '"Lee, Seungchul"'

1. EchoScan: Scanning Complex Indoor Geometries via Acoustic Echoes

Author

Yeon, Inmo, Jeong, Iljoo, Lee, Seungchul, and Choi, Jung-Woo

Subjects
Computer Science - Sound, Electrical Engineering and Systems Science - Audio and Speech Processing, Electrical Engineering and Systems Science - Signal Processing
Abstract

Accurate estimation of indoor space geometries is vital for constructing precise digital twins, whose broad industrial applications include navigation in unfamiliar environments and efficient evacuation planning, particularly in low-light conditions. This study introduces EchoScan, a deep neural network model that utilizes acoustic echoes to perform room geometry inference. Conventional sound-based techniques rely on estimating geometry-related room parameters such as wall position and room size, thereby limiting the diversity of inferable room geometries. Contrarily, EchoScan overcomes this limitation by directly inferring room floorplans and heights, thereby enabling it to handle rooms with arbitrary shapes, including curved walls. The key innovation of EchoScan is its ability to analyze the complex relationship between low- and high-order reflections in room impulse responses (RIRs) using a multi-aggregation module. The analysis of high-order reflections also enables it to infer complex room shapes when echoes are unobservable from the position of an audio device. Herein, EchoScan was trained and evaluated using RIRs synthesized from complex environments, including the Manhattan and Atlanta layouts, employing a practical audio device configuration compatible with commercial, off-the-shelf devices. Compared with vision-based methods, EchoScan demonstrated outstanding geometry estimation performance in rooms with various shapes., Comment: 9 pages, 8 figures, 2 tables

Published
2023

9. Spider-inspired tunable mechanosensor for biomedical applications

Author

Kim, Taewi, Hong, Insic, Roh, Yeonwook, Kim, Dongjin, Kim, Sungwook, Im, Sunghoon, Kim, Changhwan, Jang, Kiwon, Kim, Seongyeon, Kim, Minho, Park, Jieun, Gong, Dohyeon, Ahn, Kihyeon, Lee, Jingoo, Lee, Gunhee, Lee, Hak-Seung, Kang, Jeehoon, Hong, Ji Man, Lee, Seungchul, Seo, Sungchul, Koo, Bon-Kwon, Koh, Je-sung, Han, Seungyong, and Kang, Daeshik

Published
2023
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13. Ensemble Transfer Learning of Elastography and B-mode Breast Ultrasound Images

Author

Misra, Sampa, Jeon, Seungwan, Managuli, Ravi, Lee, Seiyon, Kim, Gyuwon, Lee, Seungchul, Barr, Richard G, and Kim, Chulhong

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Electrical Engineering and Systems Science - Image and Video Processing
Abstract

Computer-aided detection (CAD) of benign and malignant breast lesions becomes increasingly essential in breast ultrasound (US) imaging. The CAD systems rely on imaging features identified by the medical experts for their performance, whereas deep learning (DL) methods automatically extract features from the data. The challenge of the DL is the insufficiency of breast US images available to train the DL models. Here, we present an ensemble transfer learning model to classify benign and malignant breast tumors using B-mode breast US (B-US) and strain elastography breast US (SE-US) images. This model combines semantic features from AlexNet & ResNet models to classify benign from malignant tumors. We use both B-US and SE-US images to train the model and classify the tumors. We retrospectively gathered 85 patients' data, with 42 benign and 43 malignant cases confirmed with the biopsy. Each patient had multiple B-US and their corresponding SE-US images, and the total dataset contained 261 B-US images and 261 SE-US images. Experimental results show that our ensemble model achieves a sensitivity of 88.89% and specificity of 91.10%. These diagnostic performances of the proposed method are equivalent to or better than manual identification. Thus, our proposed ensemble learning method would facilitate detecting early breast cancer, reliably improving patient care., Comment: 17 pages, 10 figures, 6 Tables

Published
2021

35. Deep learning integrated Bayesian health indicator for cross-machine health monitoring.

Author

Kim, Taewan and Lee, Seungchul

Subjects
FEATURE extraction, DEEP learning, ROLLER bearings, HEALTH status indicators, MONITORING of machinery
Abstract

Constructing a good health indicator (HI) plays a key role in machinery health monitoring. However, due to the training dataset dependency, most conventional deep-learning-based HIs exhibit inconsistent HI scales and limited cross-domain applicability. This study proposes a deep learning integrated Bayesian health indicator (DBHI) to quantify and evaluate system health states in cross-domain applications accurately. The construction of the DBHI comprises two steps: probability space mapping and probabilistic inference. In the first step, the degradation features are extracted from the data and mapped into a probability space by the proposed adversarial autoencoder model. In the second step, the DBHI is calculated by evaluating the relative risk of the current state based on Bayes' theorem. The effectiveness of the proposed DBHI was validated on two run-to-failure degradation test datasets. In a cross-domain application, the proposed DBHI achieved good performance without retraining compared to other deep learning-based methods that showed invalid results. The proposed DBHI addresses the limitations of conventional deep-learning-based HIs and provides a more reliable and consistent measure of system health, even in a cross-domain application. [ABSTRACT FROM AUTHOR]

Published
2024
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37. Impact of Quorum Sensing on the Virulence and Survival Traits of Burkholderia plantarii.

Author

Kang, Minhee, Lee, Duyoung, Mannaa, Mohamed, Han, Gil, Choi, Haeun, Lee, Seungchul, Lim, Gah-Hyun, Kim, Sang-Woo, Kim, Tae-Jin, and Seo, Young-Su

Subjects
QUORUM sensing, GRAM-negative bacteria, REGULATOR genes, COLLECTIVE behavior, BURKHOLDERIA
Abstract

Quorum sensing (QS) is a mechanism by which bacteria detect and respond to cell density, regulating collective behaviors. Burkholderia plantarii, the causal agent of rice seedling blight, employs the LuxIR-type QS system, common among Gram-negative bacteria, where LuxI-type synthase produces QS signals recognized by LuxR-type regulators to control gene expression. This study aimed to elucidate the QS mechanism in B. plantarii KACC18965. Through whole-genome analysis and autoinducer assays, the plaI gene, responsible for QS signal production, was identified. Motility assays confirmed that C8-homoserine lactone (C8-HSL) serves as the QS signal. Physiological experiments revealed that the QS-defective mutant exhibited reduced virulence, impaired swarming motility, and delayed biofilm formation compared to the wild type. Additionally, the QS mutant demonstrated weakened antibacterial activity against Escherichia coli and decreased phosphate solubilization. These findings indicate that QS in B. plantarii significantly influences various pathogenicity and survival traits, including motility, biofilm formation, antibacterial activity, and nutrient acquisition, highlighting the critical role of QS in pathogen virulence and adaptability. [ABSTRACT FROM AUTHOR]

Published
2024
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45. Uncovering the Relationship between Metal Elements and Mechanical Stability for Metal–Organic Frameworks

Author

Lee, Inhyo, Lee, Jaejun, Kim, Minseon, Park, Jaejung, Kim, Heekyu, Lee, Seungchul, and Min, Kyoungmin

Abstract

Assessing the mechanical robustness of metal–organic frameworks (MOFs) is crucial to enhance their applicability in various fields. Although considerable research has been conducted on the relationship between the mechanical properties of MOFs and their structural features (such as pore size, surface area, and topology), the insufficient exploration of metal elements has prevented researchers from fully understanding their mechanical behavior. To plug this knowledge gap, we constructed a database of mechanical properties for 20,342 MOFs included in the QMOF database using molecular simulations to investigate the impact of metal elements on mechanical stability. Through Shapley additive explanations (SHAP) analysis, we found that Co and Ln could enhance the structural stability of MOFs. We validated these findings using newly generated hypothetical MOFs. Notably, we adopted an interpretable machine learning technique to analyze the contribution of remarkably diverse metal elements in the 20,342 MOFs to the mechanical properties of each MOF. We anticipate that this research will serve as a valuable tool for future studies on identifying mechanically robust MOFs suitable for various industrial applications.

Published
2024
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