Sun-Kyu Jung scite author profile

Sun-Kyu Jung

5Publications

13Citation Statements Received

43Citation Statements Given

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Affiliations

Electronics and Telecommunications Research Institute

Publications

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Battery State-of-Health Estimation Using Machine Learning and Preprocessing with Relative State-of-Charge

Jung

Roh

2021

Energies

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Because lithium-ion batteries are widely used for various purposes, it is important to estimate their state of health (SOH) to ensure their efficiency and safety. Despite the usefulness of model-based methods for SOH estimation, the difficulties of battery modeling have resulted in a greater emphasis on machine learning for SOH estimation. Furthermore, data preprocessing has received much attention because it is an important step in determining the efficiency of machine learning methods. In this paper, we propose a new preprocessing method for improving the efficiency of machine learning for SOH estimation. The proposed method consists of the relative state of charge (SOC) and data processing, which transforms time-domain data into SOC-domain data. According to the correlation analysis, SOC-domain data are more correlated with the usable capacity than time-domain data. Furthermore, we compare the estimation results of SOC-based data and time-based data in feedforward neural networks (FNNs), convolutional neural networks (CNNs), and long short-term memory (LSTM). The results show that the SOC-based preprocessing outperforms conventional time-domain data-based techniques. Furthermore, the accuracy of the simplest FNN model with the proposed method is higher than that of the CNN model and the LSTM model with a conventional method when training data are small.

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Fabrication of a Simultaneous Highly Transparent and Highly Hydrophobic Fibrous Films

et al. 2021

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This paper discusses the fabrication and characterization of electrospun nanofiber scaffolds made of polystyrene (PS). The scaffolds were characterized in terms of their basis material molecular weight, fiber diameter distribution, contact angles, contact angle hysteresis, and transmittance. We propose an aligned electrospun fiber scaffold using an alignment tool (alignment jig) for the fabrication of highly hydrophobic (θW > 125°) and highly transparent (T > 80.0%) films. We fabricated the alignment jig to align the electrospun fibers parallel to each other. The correlation between the water contact angles and surface roughness of the aligned electrospun fibers was investigated. We found that the water contact angle increased as the surface roughness was increased. Therefore, the hydrophobic properties of the aligned electrospun fibers were enhanced by increasing the surface roughness. With the change in the electrospinning mode to produce aligned fibers rather than randomly distributed fibers, the transmittance of the aligned electrospun fibers increased. The increase in the porous area, leading to better light transmittance in comparison to randomly distributed light scattering through the aligned electrospun fibers increased with the fibers. Through the above investigation of electrospinning parameters, we obtained the simultaneous transparent (>80%) and hydrophobic (θW > 140°) electrospun fiber scaffold. The aligned electrospun fibers of PS had a maximum transmittance of 91.8% at the electrospinning time of 10 s. The water contact angle (WCA) of the aligned electrospun fibers increased from 77° to 141° as the deposition time increased from 10 s to 40 s. The aligned fibers deposited at 40 s showed highly hydrophobic characteristics (θW > 140°).

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Proposal of Fire Prevention Methodology for Temporary Constructions in Industrial Facilities through Case Analysis of Fire Sites in Korea

Jung¹,

Kim²,

Lee³

et al. 2023

Fire Sci. Eng.

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In this study, a fire prevention methodology was proposed using the case study of temporary constructions in domestic industrial facilities and data from the National Fire Agency. Fire cases in temporary construction industrial facilities in Pocheon-si and Eumseong-gun were analyzed. The material, cause of ignition, structure, and arrangement of temporary constructions at the fire sites were analyzed using data from the National Fire Agency and on-site investigation.

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Development of Compensation-Type Fire Detector Using Metal-Insulator-Transition Critical-Temperature Sensor

Jung¹,

Kim²

2014

Fire Science and Engineering

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A Compensation-type fire detector (CFD) is operated with two functions of a differential-temperature detector and as a fixed-temperature detector. The differential-temperature detector observes a rate of temperature increase, and the fixedtemperature detector measures a given fixed temperature. The differential-temperature detector does not observe the outbreak of fire in slowly increasing temperature conditions, whereas the fixed-temperature detector is not able to observe the outbreak of fire in conditions under predetermined temperature level. We developed a CFD to compensate for weaknesses of both detectors. To compensate for the disadvantages, a sensor of the sensor metal-insulator-transition criticaltemperature sensor was used. Temperature coefficient of resistance is the sensitivity for sensor. At 55 o C, temperature coefficient of resistance of metal-insulator-transition critical-temperature sensor was 14.15%. Temperature coefficient of resistance of thermistor was about 0.5%. This CFD was operated as two ways that fixed-temperature detector and differential-temperature detector in one sensor.

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Ultralow Power Wireless-Fire-Alarm-System using a VO₂-Based Metal-Insulator-Transition Device

Son

Jung

et al. 2019

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Sun-Kyu Jung

Battery State-of-Health Estimation Using Machine Learning and Preprocessing with Relative State-of-Charge

Fabrication of a Simultaneous Highly Transparent and Highly Hydrophobic Fibrous Films

Proposal of Fire Prevention Methodology for Temporary Constructions in Industrial Facilities through Case Analysis of Fire Sites in Korea

Development of Compensation-Type Fire Detector Using Metal-Insulator-Transition Critical-Temperature Sensor

Ultralow Power Wireless-Fire-Alarm-System using a VO₂-Based Metal-Insulator-Transition Device

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Sun-Kyu Jung

Battery State-of-Health Estimation Using Machine Learning and Preprocessing with Relative State-of-Charge

Fabrication of a Simultaneous Highly Transparent and Highly Hydrophobic Fibrous Films

Proposal of Fire Prevention Methodology for Temporary Constructions in Industrial Facilities through Case Analysis of Fire Sites in Korea

Development of Compensation-Type Fire Detector Using Metal-Insulator-Transition Critical-Temperature Sensor

Ultralow Power Wireless-Fire-Alarm-System using a VO2-Based Metal-Insulator-Transition Device

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Resources

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Ultralow Power Wireless-Fire-Alarm-System using a VO₂-Based Metal-Insulator-Transition Device