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1,082 results on '"Jang SI"'

1. Multimodal Attention-Enhanced Feature Fusion-based Weekly Supervised Anomaly Violence Detection

Author

Kaneko, Yuta, Miah, Abu Saleh Musa, Hassan, Najmul, Lee, Hyoun-Sup, Jang, Si-Woong, and Shin, Jungpil

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Weakly supervised video anomaly detection (WS-VAD) is a crucial area in computer vision for developing intelligent surveillance systems. This system uses three feature streams: RGB video, optical flow, and audio signals, where each stream extracts complementary spatial and temporal features using an enhanced attention module to improve detection accuracy and robustness. In the first stream, we employed an attention-based, multi-stage feature enhancement approach to improve spatial and temporal features from the RGB video where the first stage consists of a ViT-based CLIP module, with top-k features concatenated in parallel with I3D and Temporal Contextual Aggregation (TCA) based rich spatiotemporal features. The second stage effectively captures temporal dependencies using the Uncertainty-Regulated Dual Memory Units (UR-DMU) model, which learns representations of normal and abnormal data simultaneously, and the third stage is employed to select the most relevant spatiotemporal features. The second stream extracted enhanced attention-based spatiotemporal features from the flow data modality-based feature by taking advantage of the integration of the deep learning and attention module. The audio stream captures auditory cues using an attention module integrated with the VGGish model, aiming to detect anomalies based on sound patterns. These streams enrich the model by incorporating motion and audio signals often indicative of abnormal events undetectable through visual analysis alone. The concatenation of the multimodal fusion leverages the strengths of each modality, resulting in a comprehensive feature set that significantly improves anomaly detection accuracy and robustness across three datasets. The extensive experiment and high performance with the three benchmark datasets proved the effectiveness of the proposed system over the existing state-of-the-art system.

Published
2024

2. Synergy: Towards On-Body AI via Tiny AI Accelerator Collaboration on Wearables

Author

Gong, Taesik, Jang, Si Young, Acer, Utku Günay, Kawsar, Fahim, and Min, Chulhong

Subjects
Computer Science - Distributed, Parallel, and Cluster Computing, Computer Science - Machine Learning
Abstract

The advent of tiny artificial intelligence (AI) accelerators enables AI to run at the extreme edge, offering reduced latency, lower power cost, and improved privacy. When integrated into wearable devices, these accelerators open exciting opportunities, allowing various AI apps to run directly on the body. We present Synergy that provides AI apps with best-effort performance via system-driven holistic collaboration over AI accelerator-equipped wearables. To achieve this, Synergy provides device-agnostic programming interfaces to AI apps, giving the system visibility and controllability over the app's resource use. Then, Synergy maximizes the inference throughput of concurrent AI models by creating various execution plans for each app considering AI accelerator availability and intelligently selecting the best set of execution plans. Synergy further improves throughput by leveraging parallelization opportunities over multiple computation units. Our evaluations with 7 baselines and 8 models demonstrate that, on average, Synergy achieves a 23.0 times improvement in throughput, while reducing latency by 73.9% and power consumption by 15.8%, compared to the baselines.

Published
2023

7. Two-Stream Modality-Based Deep Learning Approach for Enhanced Two-Person Human Interaction Recognition in Videos.

Author

Akash, Hemel Sharker, Rahim, Md Abdur, Miah, Abu Saleh Musa, Lee, Hyoun-Sup, Jang, Si-Woong, and Shin, Jungpil

Subjects
PATTERN recognition systems, SOCIAL interaction, FEATURE extraction, VISUAL fields, RELIABILITY in engineering, DEEP learning
Abstract

Human interaction recognition (HIR) between two people in videos is a critical field in computer vision and pattern recognition, aimed at identifying and understanding human interaction and actions for applications such as healthcare, surveillance, and human–computer interaction. Despite its significance, video-based HIR faces challenges in achieving satisfactory performance due to the complexity of human actions, variations in motion, different viewpoints, and environmental factors. In the study, we proposed a two-stream deep learning-based HIR system to address these challenges and improve the accuracy and reliability of HIR systems. In the process, two streams extract hierarchical features based on the skeleton and RGB information, respectively. In the first stream, we utilised YOLOv8-Pose for human pose extraction, then extracted features with three stacked LSM modules and enhanced them with a dense layer that is considered the final feature of the first stream. In the second stream, we utilised SAM on the input videos, and after filtering the Segment Anything Model (SAM) feature, we employed integrated LSTM and GRU to extract the long-range dependency feature and then enhanced them with a dense layer that was considered the final feature for the second stream module. Here, SAM was utilised for segmented mesh generation, and ImageNet was used for feature extraction from images or meshes, focusing on extracting relevant features from sequential image data. Moreover, we newly created a custom filter function to enhance computational efficiency and eliminate irrelevant keypoints and mesh components from the dataset. We concatenated the two stream features and produced the final feature that fed into the classification module. The extensive experiment with the two benchmark datasets of the proposed model achieved 96.56% and 96.16% accuracy, respectively. The high-performance accuracy of the proposed model proved its superiority. [ABSTRACT FROM AUTHOR]

Published
2024
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11. Exploring Feature Selection and Classification Techniques to Improve the Performance of an Electroencephalography-Based Motor Imagery Brain–Computer Interface System.

Author

Kabir, Md. Humaun, Akhtar, Nadim Ibne, Tasnim, Nishat, Miah, Abu Saleh Musa, Lee, Hyoun-Sup, Jang, Si-Woong, and Shin, Jungpil

Subjects
FISHER discriminant analysis, MOTOR imagery (Cognition), MACHINE learning, BRAIN-computer interfaces, RESEARCH personnel, FEATURE selection, FEATURE extraction, ELECTROENCEPHALOGRAPHY
Abstract

The accuracy of classifying motor imagery (MI) activities is a significant challenge when using brain–computer interfaces (BCIs). BCIs allow people with motor impairments to control external devices directly with their brains using electroencephalogram (EEG) patterns that translate brain activity into control signals. Many researchers have been working to develop MI-based BCI recognition systems using various time-frequency feature extraction and classification approaches. However, the existing systems still face challenges in achieving satisfactory performance due to large amount of non-discriminative and ineffective features. To get around these problems, we suggested a multiband decomposition-based feature extraction and classification method that works well, along with a strong feature selection method for MI tasks. Our method starts by splitting the preprocessed EEG signal into four sub-bands. In each sub-band, we then used a common spatial pattern (CSP) technique to pull out narrowband-oriented useful features, which gives us a high-dimensional feature vector. Subsequently, we utilized an effective feature selection method, Relief-F, which reduces the dimensionality of the final features. Finally, incorporating advanced classification techniques, we classified the final reduced feature vector. To evaluate the proposed model, we used the three different EEG-based MI benchmark datasets, and our proposed model achieved better performance accuracy than existing systems. Our model's strong points include its ability to effectively reduce feature dimensionality and improve classification accuracy through advanced feature extraction and selection methods. [ABSTRACT FROM AUTHOR]

Published
2024
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14. Abstract A005: Ultra-rapid and precise measurement of HER2 copy number alteration by next-generation digital PCR capable of real-time analysis in patients with breast cancer: A multicenter retrospective study

Author

Chang, Jin hyuk, primary, Kim, YoonSik, additional, Choi, Hee-Joo, additional, Park, Soo Young, additional, Park, Ji-Hye, additional, Won, Hee-Young, additional, Song, Min Ji, additional, Kim, Da Sol, additional, Kim, Hayeon, additional, Yang, Sohyeon, additional, Heo, Nam Hun, additional, Song, Minsik, additional, Shin, Seung-Shick, additional, Lee, Do Young, additional, Ryu, Han Suk, additional, Jang, Si-Hyong, additional, and Lee, Jeong-Yeon, additional

Published
2024
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24. Developing a Community-Based, Intergenerational Intervention to Alleviate Transportation Barriers: Healthy Buddy Program for Latinx Older Adults.

Author

Lee, Kathy, Jang, Si Won, Cassidy, Jessica, and Wright, Savana

Subjects
*COLLEGE students, *HEALTH services accessibility, *EVALUATION of human services programs, *SOCIAL support, *HISPANIC Americans, *RESEARCH methodology, *HEALTH outcome assessment, *INTERVIEWING, *COMMUNITY-based social services, *RESEARCH funding, *TRANSPORTATION, *COVID-19 pandemic
Abstract

The research team developed a community-based, intergenerational intervention, the Spanish-language Healthy Buddy Program to alleviate transportation barriers experienced by Latinx older adults. College students were paired with Latinx older adults and helped them identify transportation- and health-related resources in their communities. During COVID-19, the program was implemented in Hillsborough County, Florida, and Dallas-Fort Worth Metroplex and San Antonio, Texas. This paper reports the study process and outcomes using quantitative and qualitative data collected in Texas (n = 25). Individual interviews indicated older adult participants were receptive to the program model and appreciated the roles student buddies played to help improve their mobility. [ABSTRACT FROM AUTHOR]

Published
2024
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28. Collaborative Inference via Dynamic Composition of Tiny AI Accelerators on MCUs

Author

Gong, Taesik, Jang, Si Young, Acer, Utku Günay, Kawsar, Fahim, Min, Chulhong, Gong, Taesik, Jang, Si Young, Acer, Utku Günay, Kawsar, Fahim, and Min, Chulhong

Abstract

The advent of tiny AI accelerators opens opportunities for deep neural network deployment at the extreme edge, offering reduced latency, lower power cost, and improved privacy in on-device ML inference. Despite these advancements, challenges persist due to inherent limitations of these accelerators, such as restricted onboard memory and single-device focus. This paper introduces Synergy, a system that dynamically composes tiny AI accelerators for multi-tenant models, effectively addressing tinyML's critical challenges for the increasing demand for on-device AI. A key feature of Synergy is its virtual computing space, providing a unified, virtualized view of resources and enabling efficient task mapping to physical devices. Synergy's runtime orchestration module ensures optimal inference across dynamic and heterogeneous accelerators. Our evaluations with 7 baselines and 8 models demonstrate that Synergy improves throughput by an average of 8.0X compared to baselines.

Published
2023

36. Cocoon

Author

Chhaglani, Bhawana, primary, Acer, Utku Günay, additional, Jang, Si Young, additional, Kawsar, Fahim, additional, and Min, Chulhong, additional

Published
2023
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