Geesung Oh scite author profile

Geesung Oh

8Publications

28Citation Statements Received

193Citation Statements Given

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165

191

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Kookmin University

Publications

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DRER: Deep Learning–Based Driver’s Real Emotion Recognizer

Ryu

Jeong

et al. 2021

Sensors

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In intelligent vehicles, it is essential to monitor the driver’s condition; however, recognizing the driver’s emotional state is one of the most challenging and important tasks. Most previous studies focused on facial expression recognition to monitor the driver’s emotional state. However, while driving, many factors are preventing the drivers from revealing the emotions on their faces. To address this problem, we propose a deep learning-based driver’s real emotion recognizer (DRER), which is a deep learning-based algorithm to recognize the drivers’ real emotions that cannot be completely identified based on their facial expressions. The proposed algorithm comprises of two models: (i) facial expression recognition model, which refers to the state-of-the-art convolutional neural network structure; and (ii) sensor fusion emotion recognition model, which fuses the recognized state of facial expressions with electrodermal activity, a bio-physiological signal representing electrical characteristics of the skin, in recognizing even the driver’s real emotional state. Hence, we categorized the driver’s emotion and conducted human-in-the-loop experiments to acquire the data. Experimental results show that the proposed fusing approach achieves 114% increase in accuracy compared to using only the facial expressions and 146% increase in accuracy compare to using only the electrodermal activity. In conclusion, our proposed method achieves 86.8% recognition accuracy in recognizing the driver’s induced emotion while driving situation.

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Causal affect prediction model using a past facial image sequence

Jeong

Lim

2021

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Multi-task Learning for Human Affect Prediction with Auditory–Visual Synchronized Representation

Jeong

Lim

2022

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Multitask Emotion Recognition Model with Knowledge Distillation and Task Discriminator

Jeong¹,

Oh²,

Lim³

2022

Preprint

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Multimodal Data Collection System for Driver Emotion Recognition Based on Self-Reporting in Real-World Driving

Jeong

Kim

et al. 2022

Sensors

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As vehicles provide various services to drivers, research on driver emotion recognition has been expanding. However, current driver emotion datasets are limited by inconsistencies in collected data and inferred emotional state annotations by others. To overcome this limitation, we propose a data collection system that collects multimodal datasets during real-world driving. The proposed system includes a self-reportable HMI application into which a driver directly inputs their current emotion state. Data collection was completed without any accidents for over 122 h of real-world driving using the system, which also considers the minimization of behavioral and cognitive disturbances. To demonstrate the validity of our collected dataset, we also provide case studies for statistical analysis, driver face detection, and personalized driver emotion recognition. The proposed data collection system enables the construction of reliable large-scale datasets on real-world driving and facilitates research on driver emotion recognition. The proposed system is avaliable on GitHub.

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Unsupervised Anomaly Detection Approach for Shift Quality Assessment Using Deep Neural Networks

Park

Hwang

et al. 2022

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A Study on Trade-off Evaluation by Simplifying Propagation Process of Vehicle Trajectory Prediction Model Based on Deep Learning

Oh¹,

Kim²,

Lim³

2021

kics

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Deep Learning-Based Driver’s Hands on/off Prediction System Using In-Vehicle Data

Pyeon

Kim

et al. 2023

Sensors

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Driver’s hands on/off detection is very important in current autonomous vehicles for safety. Several studies have been conducted to create a precise algorithm. Although many studies have proposed various approaches, they have some limitations, such as robustness and reliability. Therefore, we propose a deep learning model that utilizes in-vehicle data. We also established a data collection system, which collects in-vehicle data that are auto-labeled for efficient and reliable data acquisition. For a robust system, we devised a confidence logic that prevents outliers’ sway. To evaluate our model in more detail, we suggested a new metric to explain the events, considering state transitions. In addition, we conducted an extensive experiment on the new drivers to demonstrate our model’s generalization ability. We verified that the proposed system achieved a better performance than in previous studies, by resolving their drawbacks. Our model detected hands on/off transitions in 0.37 s on average, with an accuracy of 95.7%.

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Geesung Oh

DRER: Deep Learning–Based Driver’s Real Emotion Recognizer

Causal affect prediction model using a past facial image sequence

Multi-task Learning for Human Affect Prediction with Auditory–Visual Synchronized Representation

Multitask Emotion Recognition Model with Knowledge Distillation and Task Discriminator

Multimodal Data Collection System for Driver Emotion Recognition Based on Self-Reporting in Real-World Driving

Unsupervised Anomaly Detection Approach for Shift Quality Assessment Using Deep Neural Networks

A Study on Trade-off Evaluation by Simplifying Propagation Process of Vehicle Trajectory Prediction Model Based on Deep Learning

Deep Learning-Based Driver’s Hands on/off Prediction System Using In-Vehicle Data

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