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2,671 results on '"Park, Sang Min"'

1. Inverse design of Non-parameterized Ventilated Acoustic Resonator via Variational Autoencoder with Acoustic Response-encoded Latent Space

Author

Cho, Min Woo, Hwang, Seok Hyeon, Jang, Jun-Young, Song, Jin Yeong, Hwang, Sun-kwang, Cha, Kyoung Je, Park, Dong Yong, Song, Kyungjun, and Park, Sang Min

Subjects
Computer Science - Computational Engineering, Finance, and Science, Computer Science - Artificial Intelligence, Computer Science - Machine Learning
Abstract

Ventilated acoustic resonator(VAR), a type of acoustic metamaterial, emerge as an alternative for sound attenuation in environments that require ventilation, owing to its excellent low-frequency attenuation performance and flexible shape adaptability. However, due to the non-linear acoustic responses of VARs, the VAR designs are generally obtained within a limited parametrized design space, and the design relies on the iteration of the numerical simulation which consumes a considerable amount of computational time and resources. This paper proposes an acoustic response-encoded variational autoencoder (AR-VAE), a novel variational autoencoder-based generative design model for the efficient and accurate inverse design of VAR even with non-parametrized designs. The AR-VAE matches the high-dimensional acoustic response with the VAR cross-section image in the dimension-reduced latent space, which enables the AR-VAE to generate various non-parametrized VAR cross-section images with the target acoustic response. AR-VAE generates non-parameterized VARs from target acoustic responses, which show a 25-fold reduction in mean squared error compared to conventional deep learning-based parameter searching methods while exhibiting lower average mean squared error and peak frequency variance. By combining the inverse-designed VARs by AR-VAE, multi-cavity VAR was devised for broadband and multitarget peak frequency attenuation. The proposed design method presents a new approach for structural inverse-design with a high-dimensional non-linear physical response.

Published
2024

2. Room-Temperature Polariton Lasing from CdSe core-only Nanoplatelets

Author

Freire-Fernández, Francisco, Sinai, Nathan G., Tan, Max J. H., Park, Sang-Min, Koessler, Eric, Krauss, Todd D., Huo, Pengfei, and Odom, Teri W.

Subjects
Physics - Optics
Abstract

This paper reports how CdSe core-only nanoplatelets coupled with plasmonic Al nanoparticle lattices can exhibit exciton-polariton lasing. By improving a procedure to synthesize monodisperse 4-monolayer CdSe nanoplatelets, we could resolve polariton decay dynamics and pathways. Experiment and theory confirmed that the system is in the strong coupling regime based on anti-crossings in the dispersion diagrams and magnitude of the Rabi splitting values. Notably, polariton lasing is observed only for cavity lattice periodicities that exhibit specific dispersive characteristics that enable polariton accumulation. The threshold of polariton lasing is 25-fold lower than reported photon lasing values from CdSe nanoplatelets in similar cavity designs. This open-cavity platform offers a simple approach to control exciton polaritons anticipated to benefit quantum information processing, optoelectronics, and chemical reactions.

Published
2024

4. Efficacy of an Electronic Health Management Program for Patients With Cardiovascular Risk: Randomized Controlled Trial

Author

Yun, Young Ho, Kang, EunKyo, Cho, Young Min, Park, Sang Min, Kim, Yong-Jin, Lee, Hae-Young, Kim, Kyae Hyung, Lee, Kiheon, Koo, Hye Yeon, Kim, Soojeong, Rhee, YeEun, Lee, Jihye, Min, Jeong Hee, and Sim, Jin-Ah

Subjects
Computer applications to medicine. Medical informatics, R858-859.7, Public aspects of medicine, RA1-1270
Abstract

BackgroundIn addition to medication, health behavior management is crucial in patients with multiple risks of cardiovascular mortality. ObjectiveThis study aimed to examine the efficacy of a 3-month Smart Management Strategy for Health–based electronic program (Smart Healthing). MethodsA 2-arm randomized controlled trial was conducted to assess the efficacy of Smart Healthing in 106 patients with at least one indicator of poor disease control and who had hypertension, diabetes, or hypercholesterolemia. The intervention group (n=53) took part in the electronic program, which was available in the form of a mobile app and a Web-based PC application. The program covered 4 areas: self-assessment, self-planning, self-learning, and self-monitoring by automatic feedback. The control group (n=53) received basic educational material concerning disease control. The primary outcome was the percentage of participants who achieved their clinical indicator goal after 12 weeks into the program: glycated hemoglobin (HbA1c)

Published
2020
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5. Balloon-expandable cobalt chromium stent versus self-expandable nitinol stent for the Atherosclerotic Iliac Arterial Disease (SENS-ILIAC Trial) Trial: a randomized controlled trial

Author

Choi, Woong Gil, Rha, Seung-Woon, Choi, Byoung Geol, Park, Soohyung, Kim, Ji Bak, Kang, Dong Oh, Choi, Cheol Ung, Seo, Yong Sung, Cho, Yoon Hyung, Park, Sang Ho, Lee, Seung Jin, Ko, Young Guk, Her, Ae-Young, Kim, Sang Min, Kim, Ki Chang, Cho, Jang Hyun, Kang, Won Yu, Kim, Joo Han, Kim, Min Woong, Kim, Do Hoi, Bae, Jang Ho, Ahn, Ji Hoon, Jo, Sang Cheol, Seo, Jae Bin, Jung, Woo Young, and Park, Sang Min

Published
2024
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6. D-Score: A Synapse-Inspired Approach for Filter Pruning

Author

Park, Doyoung, Kim, Jinsoo, Nam, Jina, Chang, Jooyoung, and Park, Sang Min

Subjects
Computer Science - Neural and Evolutionary Computing, Computer Science - Machine Learning
Abstract

This paper introduces a new aspect for determining the rank of the unimportant filters for filter pruning on convolutional neural networks (CNNs). In the human synaptic system, there are two important channels known as excitatory and inhibitory neurotransmitters that transmit a signal from a neuron to a cell. Adopting the neuroscientific perspective, we propose a synapse-inspired filter pruning method, namely Dynamic Score (D-Score). D-Score analyzes the independent importance of positive and negative weights in the filters and ranks the independent importance by assigning scores. Filters having low overall scores, and thus low impact on the accuracy of neural networks are pruned. The experimental results on CIFAR-10 and ImageNet datasets demonstrate the effectiveness of our proposed method by reducing notable amounts of FLOPs and Params without significant Acc. Drop., Comment: 9 pages, 5 figures, 2 tables

Published
2023

17. Generalized Supervised Contrastive Learning

Author

Kim, Jaewon, Lee, Hyukjong, Chang, Jooyoung, and Park, Sang Min

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

With the recent promising results of contrastive learning in the self-supervised learning paradigm, supervised contrastive learning has successfully extended these contrastive approaches to supervised contexts, outperforming cross-entropy on various datasets. However, supervised contrastive learning inherently employs label information in a binary form--either positive or negative--using a one-hot target vector. This structure struggles to adapt to methods that exploit label information as a probability distribution, such as CutMix and knowledge distillation. In this paper, we introduce a generalized supervised contrastive loss, which measures cross-entropy between label similarity and latent similarity. This concept enhances the capabilities of supervised contrastive loss by fully utilizing the label distribution and enabling the adaptation of various existing techniques for training modern neural networks. Leveraging this generalized supervised contrastive loss, we construct a tailored framework: the Generalized Supervised Contrastive Learning (GenSCL). Compared to existing contrastive learning frameworks, GenSCL incorporates additional enhancements, including advanced image-based regularization techniques and an arbitrary teacher classifier. When applied to ResNet50 with the Momentum Contrast technique, GenSCL achieves a top-1 accuracy of 77.3% on ImageNet, a 4.1% relative improvement over traditional supervised contrastive learning. Moreover, our method establishes new state-of-the-art accuracies of 98.2% and 87.0% on CIFAR10 and CIFAR100 respectively when applied to ResNet50, marking the highest reported figures for this architecture.

Published
2022

22. Biodegradable Polymer Versus Polymer-Free Ultrathin Sirolimus-Eluting Stents: Analysis of the Stent Arm Registry From the HOST-IDEA Randomized Trial

Author

Han, Jung-Kyu, Yang, Seokhun, Hwang, Doyeon, Park, Sang-Hyeon, Kang, Jeehoon, Yang, Han-Mo, Park, Kyung Woo, Kang, Hyun-Jae, Koo, Bon-Kwon, Cho, Jin-Man, Cho, Janghyun, Bang, Duk Won, Lee, Jae-Hwan, Lee, Han Cheol, Kim, Kyung-Jin, Chun, Woo Jung, Seo, Won-Woo, Park, Woo-Jung, Park, Sang Min, Kim, Jin Won, and Kim, Hyo-Soo

Published
2024
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