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41 results on '"Cho, Wonwoo"'

1. Training Spatial-Frequency Visual Prompts and Probabilistic Clusters for Accurate Black-Box Transfer Learning

Author

Cho, Wonwoo, Kim, Kangyeol, Choi, Saemee, and Choo, Jaegul

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Despite the growing prevalence of black-box pre-trained models (PTMs) such as prediction API services, there remains a significant challenge in directly applying general models to real-world scenarios due to the data distribution gap. Considering a data deficiency and constrained computational resource scenario, this paper proposes a novel parameter-efficient transfer learning framework for vision recognition models in the black-box setting. Our framework incorporates two novel training techniques. First, we align the input space (i.e., image) of PTMs to the target data distribution by generating visual prompts of spatial and frequency domain. Along with the novel spatial-frequency hybrid visual prompter, we design a novel training technique based on probabilistic clusters, which can enhance class separation in the output space (i.e., prediction probabilities). In experiments, our model demonstrates superior performance in a few-shot transfer learning setting across extensive visual recognition datasets, surpassing state-of-the-art baselines. Additionally, we show that the proposed method efficiently reduces computational costs for training and inference phases., Comment: ACM Multimedia 2024

Published
2024

2. Layout-and-Retouch: A Dual-stage Framework for Improving Diversity in Personalized Image Generation

Author

Kim, Kangyeol, Seo, Wooseok, Nam, Sehyun, Kim, Bodam, Jeong, Suhyeon, Cho, Wonwoo, Choo, Jaegul, and Yu, Youngjae

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence
Abstract

Personalized text-to-image (P-T2I) generation aims to create new, text-guided images featuring the personalized subject with a few reference images. However, balancing the trade-off relationship between prompt fidelity and identity preservation remains a critical challenge. To address the issue, we propose a novel P-T2I method called Layout-and-Retouch, consisting of two stages: 1) layout generation and 2) retouch. In the first stage, our step-blended inference utilizes the inherent sample diversity of vanilla T2I models to produce diversified layout images, while also enhancing prompt fidelity. In the second stage, multi-source attention swapping integrates the context image from the first stage with the reference image, leveraging the structure from the context image and extracting visual features from the reference image. This achieves high prompt fidelity while preserving identity characteristics. Through our extensive experiments, we demonstrate that our method generates a wide variety of images with diverse layouts while maintaining the unique identity features of the personalized objects, even with challenging text prompts. This versatility highlights the potential of our framework to handle complex conditions, significantly enhancing the diversity and applicability of personalized image synthesis.

Published
2024

3. iDet3D: Towards Efficient Interactive Object Detection for LiDAR Point Clouds

Author

Choi, Dongmin, Cho, Wonwoo, Kim, Kangyeol, and Choo, Jaegul

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Accurately annotating multiple 3D objects in LiDAR scenes is laborious and challenging. While a few previous studies have attempted to leverage semi-automatic methods for cost-effective bounding box annotation, such methods have limitations in efficiently handling numerous multi-class objects. To effectively accelerate 3D annotation pipelines, we propose iDet3D, an efficient interactive 3D object detector. Supporting a user-friendly 2D interface, which can ease the cognitive burden of exploring 3D space to provide click interactions, iDet3D enables users to annotate the entire objects in each scene with minimal interactions. Taking the sparse nature of 3D point clouds into account, we design a negative click simulation (NCS) to improve accuracy by reducing false-positive predictions. In addition, iDet3D incorporates two click propagation techniques to take full advantage of user interactions: (1) dense click guidance (DCG) for keeping user-provided information throughout the network and (2) spatial click propagation (SCP) for detecting other instances of the same class based on the user-specified objects. Through our extensive experiments, we present that our method can construct precise annotations in a few clicks, which shows the practicality as an efficient annotation tool for 3D object detection., Comment: Accepted to AAAI 2024

Published
2023

5. Towards Accurate Open-Set Recognition via Background-Class Regularization

Author

Cho, Wonwoo and Choo, Jaegul

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

In open-set recognition (OSR), classifiers should be able to reject unknown-class samples while maintaining high closed-set classification accuracy. To effectively solve the OSR problem, previous studies attempted to limit latent feature space and reject data located outside the limited space via offline analyses, e.g., distance-based feature analyses, or complicated network architectures. To conduct OSR via a simple inference process (without offline analyses) in standard classifier architectures, we use distance-based classifiers instead of conventional Softmax classifiers. Afterwards, we design a background-class regularization strategy, which uses background-class data as surrogates of unknown-class ones during training phase. Specifically, we formulate a novel regularization loss suitable for distance-based classifiers, which reserves sufficiently large class-wise latent feature spaces for known classes and forces background-class samples to be located far away from the limited spaces. Through our extensive experiments, we show that the proposed method provides robust OSR results, while maintaining high closed-set classification accuracy., Comment: Accepted to ECCV 2022

Published
2022

7. Secure and efficient compressed sensing based encryption with sparse matrices

Author

Cho, Wonwoo and Yu, Nam Yul

Subjects
Computer Science - Information Theory
Abstract

In this paper, we study the security of a compressed sensing (CS) based cryptosystem called a sparse one-time sensing (S-OTS) cryptosystem, which encrypts a plaintext with a sparse measurement matrix. To construct the secret matrix and renew it at each encryption, a bipolar keystream and a random permutation pattern are employed as cryptographic primitives, which can be obtained by a keystream generator of stream ciphers. With a small number of nonzero elements in the measurement matrix, the S-OTS cryptosystem achieves efficient CS encryption in terms of memory and computational cost. In security analysis, we show that the S-OTS cryptosystem can be indistinguishable as long as each plaintext has constant energy, which formalizes computational security against ciphertext only attacks (COA). In addition, we consider a chosen plaintext attack (CPA) against the S-OTS cryptosystem, which consists of two sequential stages, keystream and key recovery attacks. Against keystream recovery under CPA, we demonstrate that the S-OTS cryptosystem can be secure with overwhelmingly high probability, as an adversary needs to distinguish a prohibitively large number of candidate keystreams. Finally, we conduct an information-theoretic analysis to show that the S-OTS cryptosystem can be resistant against key recovery under CPA by guaranteeing that the probability of success is extremely low. In conclusion, the S-OTS cryptosystem can be computationally secure against COA and the two-stage CPA, while providing efficiency in CS encryption.

Published
2019

16. The Application of Fluorescence In Situ Hybridization in the Prescreening of Veronica Hybrids.

Author

Park, Hye-Wan, Sevilleno, Samantha Serafin, Ha, My Khanh Tran Thi, Cabahug-Braza, Raisa Aone, Yi, Ji-Hun, Lim, Ki-Byung, Cho, Wonwoo, and Hwang, Yoon-Jung

Subjects
FLUORESCENCE in situ hybridization, GENITALIA, PLANT breeding, GENETIC variation, FLUORESCENCE, CHROMOSOMES, INTROGRESSION (Genetics)
Abstract

Fluorescence in situ hybridization (FISH), a molecular cytogenetic technique that enables the visualization and identification of specific DNA sequences within chromosomes, has emerged as a pivotal tool in plant breeding programs, particularly in the case of Veronica species. Veronica, a genus with a complex reproductive system, often poses challenges in accurately identifying hybrids because of its tendency to hybridize, which leads to intricate genetic variation. This study focused on the use of FISH as a prescreening method to identify true hybrids in Veronica breeding programs. FISH analysis was first performed on the parents to identify their 45S and 5S rDNA signals, along with their respective chromosome numbers. The signals were then compared with those of the twenty progenies with reference to their supposed parents. Five true hybrids, seven self-pollinated progenies, and eight false hybrids were identified through FISH. The findings highlight the significance of FISH as a screening method that contributes significantly to the efficiency of Veronica breeding programs by ensuring the preservation of desired genetic traits and minimizing the inadvertent inclusion of misidentified hybrids. To conclude, this study underscores the vital role of FISH in enhancing the precision and success of breeding programs and opens new avenues for improved breeding strategies and crop development. [ABSTRACT FROM AUTHOR]

Published
2024
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20. A Data Model for Object-Based Seamless Digital Map Using Digital Map 2.0

Author

Kim, Hyeongsoo, Park, Hyun Woo, Cho, Wonwoo, Paik, Incheon, Ryu, Keun Ho, Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Kobsa, Alfred, Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Nierstrasz, Oscar, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Weikum, Gerhard, Series editor, Chen, Yueguo, editor, Balke, Wolf-Tilo, editor, Xu, Jianliang, editor, Xu, Wei, editor, Jin, Peiquan, editor, Lin, Xin, editor, Tang, Tiffany, editor, and Hwang, Eenjun, editor

Published
2014
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31. Applicability Analysis of MMS based Road Spatial Information

Author

Choi Yunsoo, Shin Hanseop, Kim Kamlae, Cho Wonwoo, and Kim Sangbong

Subjects
Transport engineering, Management information systems, Digital mapping, Computer science, ComputerSystemsOrganization_MISCELLANEOUS, Road map, Technology development, Commercialization, Spatial analysis, Reliability (statistics)
Abstract

Recently, together with the self-driving car commercialization technology development, the precision road map is being made to support the policy. To make the precision road map, exact and precise spatial information around the road, which can enhance the reliability, are needed to be established. Therefore, in this study, the 3D high-precision road spatial information were built using MMS, which facilitates building of the high precision spatial information around the road. Through the information built, the positional information of various facilities required for precision road map were extracted. In the results of verifying the precision based on the information extracted, high precision within approximately 8cm was secured. In the results of this study, MMS-based road spatial information are deeded to be applied effectively not only to the precision road map but also in building and renewal of database for traffic safety installations, national highway management information, etc.

Published
2017

38. Evaluation of Quality Characteristics of Brassica campetris L. Treated with Environmentally-Friendly Red Clay-Processed Materials

Author

Seo, Yoojin, primary, Yang, Inyong, additional, Yoon, Sungjin, additional, Kim, SungGun, additional, Seo, Sooyoung, additional, Won, Chu In, additional, Cho, Wonwoo, additional, Lee, Sora, additional, Kang, Ho-Duck, additional, Yoon, Moon-Young, additional, Park, Jung-Keug, additional, Yoo, Byoungseung, additional, Chang, Yoonhyuk, additional, and Lee, Youngseung, additional

Published
2015
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41. A Computed Tomography-Based Fracture Prediction Model With Images of Vertebral Bones and Muscles by Employing Deep Learning: Development and Validation Study.

Author

Kong SH, Cho W, Park SB, Choo J, Kim JH, Kim SW, and Shin CS

Subjects
Humans, Female, Male, Aged, Retrospective Studies, Middle Aged, Longitudinal Studies, Spine diagnostic imaging, Muscle, Skeletal diagnostic imaging, Muscle, Skeletal injuries, Deep Learning, Tomography, X-Ray Computed methods, Spinal Fractures diagnostic imaging
Abstract

Background: With the progressive increase in aging populations, the use of opportunistic computed tomography (CT) scanning is increasing, which could be a valuable method for acquiring information on both muscles and bones of aging populations., Objective: The aim of this study was to develop and externally validate opportunistic CT-based fracture prediction models by using images of vertebral bones and paravertebral muscles., Methods: The models were developed based on a retrospective longitudinal cohort study of 1214 patients with abdominal CT images between 2010 and 2019. The models were externally validated in 495 patients. The primary outcome of this study was defined as the predictive accuracy for identifying vertebral fracture events within a 5-year follow-up. The image models were developed using an attention convolutional neural network-recurrent neural network model from images of the vertebral bone and paravertebral muscles., Results: The mean ages of the patients in the development and validation sets were 73 years and 68 years, and 69.1% (839/1214) and 78.8% (390/495) of them were females, respectively. The areas under the receiver operator curve (AUROCs) for predicting vertebral fractures were superior in images of the vertebral bone and paravertebral muscles than those in the bone-only images in the external validation cohort (0.827, 95% CI 0.821-0.833 vs 0.815, 95% CI 0.806-0.824, respectively; P<.001). The AUROCs of these image models were higher than those of the fracture risk assessment models (0.810 for major osteoporotic risk, 0.780 for hip fracture risk). For the clinical model using age, sex, BMI, use of steroids, smoking, possible secondary osteoporosis, type 2 diabetes mellitus, HIV, hepatitis C, and renal failure, the AUROC value in the external validation cohort was 0.749 (95% CI 0.736-0.762), which was lower than that of the image model using vertebral bones and muscles (P<.001)., Conclusions: The model using the images of the vertebral bone and paravertebral muscle showed better performance than that using the images of the bone-only or clinical variables. Opportunistic CT screening may contribute to identifying patients with a high fracture risk in the future., (©Sung Hye Kong, Wonwoo Cho, Sung Bae Park, Jaegul Choo, Jung Hee Kim, Sang Wan Kim, Chan Soo Shin. Originally published in the Journal of Medical Internet Research (https://www.jmir.org), 12.07.2024.)

Published
2024
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