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1. Passive wing deployment and retraction in beetles and flapping microrobots

Author

Phan, Hoang-Vu, Park, Hoon Cheol, and Floreano, Dario

Subjects
Physics - Biological Physics, Computer Science - Robotics
Abstract

Birds, bats and many insects can tuck their wings against their bodies at rest and deploy them to power flight. Whereas birds and bats use well-developed pectoral and wing muscles and tendons, how insects control these movements remains unclear, as mechanisms of wing deployment and retraction vary among insect species. Beetles (Coleoptera) display one of the most complex wing mechanisms. For example, in rhinoceros beetles, the wing deployment initiates by fully opening the elytra and partially releasing the hindwings from the abdomen. Subsequently, the beetle starts flapping, elevates the hindwings at the bases, and unfolds the wingtips in an origami-like fashion. Whilst the origami-like fold have been extensively explored, limited attention has been given to the hindwing base deployment and retraction, which are believed to be driven by thoracic muscles. Using high-speed cameras and robotic flapping-wing models, here we demonstrate that rhinoceros beetles can effortlessly elevate the hindwings to flight position without the need for muscular activity. We show that opening the elytra triggers a spring-like partial release of the hindwings from the body, allowing the clearance needed for subsequent flapping motion that brings the hindwings into flight position. The results also show that after flight, beetles can leverage the elytra to push the hindwings back into the resting position, further strengthening the hypothesis of a passive deployment mechanism. Finally, we validate the hypothesis with a flapping microrobot that passively deploys its wings for stable controlled flight and retracts them neatly upon landing, which offers a simple yet effective approach to the design of insect-like flying micromachines., Comment: 20 pages, 10 figures

Published
2024
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9. Towards the Long-Endurance Flight of an Insect-Inspired, Tailless, Two-Winged, Flapping-Wing Flying Robot

Author

Phan, Hoang Vu, Aurecianus, Steven, Au, Thi Kim Loan, Kang, Taesam, and Park, Hoon Cheol

Subjects
Computer Science - Robotics
Abstract

A hover-capable insect-inspired flying robot that can remain long in the air has shown its potential use for both confined indoor and outdoor applications to complete assigned tasks. In this letter, we report improvements in the flight endurance of our 15.8 g robot, named KUBeetle-S, using a low-voltage power source. The robot is equipped with a simple but effective control mechanism that can modulate the stroke plane for attitude stabilization and control. Due to the demand for extended flight, we performed a series of experiments on the lift generation and power requirement of the robot with different stroke amplitudes and wing areas. We show that a larger wing with less inboard wing area improves the lift-to-power ratio and produces a peak lift-to-weight ratio of 1.34 at 3.7 V application. Flight tests show that the robot employing the selected wing could hover for 8.8 minutes. Moreover, the robot could perform maneuvers in any direction, fly outdoors, and carry payload, demonstrating its ability to enter the next phase of autonomous flight., Comment: Accepted for publications in IEEE Robotics and Automation Letters (RA-L) and the Proceedings of the 2020 IEEE/RSJ International Conference on Intelligent Robots and Systems. 8 pages, 12 figures

Published
2020
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11. Comparison of the Oral Calcimimetics Evocalcet and Cinacalcet in East Asian Patients on Hemodialysis with Secondary Hyperparathyroidism

Author

Xinling, Liang, Shuangxin, Liu, Sijia, Li, Lixia, Xu, Zhiming, Ye, Zhonglin, Feng, Renwei, Huang, Zhilian, Li, Wei, Chen, Xunhua, Zheng, Naya, Huang, Zhen, Ai, Xin, Wang, former PI, Ni, Zhaohui, present PI, Renhua, Lu, Jianxiao, Shen, Yijun, Zhou, Xinghui, Lin, Yuanyuan, Xie, Jiahui, Zhang, Miaolin, Che, Yan, Fang, Huihua, Pang, Xinyu, Su, Leyi, Gu, Wei, Jin, Peipei, Zhao, Yiwei, Shen, Liou, Zao, Wei, Lu, Haidong, Huang, Gang, Ji, Hao, Li, Deguang, Wang, Liang, Yuan, Lihong, Ding, Xuerong, Wang, Huai, Li, Hong, Liu, Fang, Yuan, Panai, Song, An, Zhou, Xiaojun, Chen, Xiejia, Li, Liyu, He, Xia, Tan, Jing, Chen, Minmin, Zhang, Qian, Zhang, Jing, Qian, Yaozhong, Kong, Youyuan, Chen, Wei, Shen, Guanqing, Xiao, Dezhen, Chen, Dao, Li, Aizhen, Hou, Xiaolei, Li, Hanchang, He, Huizhen, Ye, Zhuxing, Sun, Xiran, Zhang, Weiwei, Shan, Jing, Xue, Yong, Chen, Changying, Xing, Li, Li, Xiangbao, Yu, Kang, Liu, Yifei, Ge, Yili, Xu, Zhimin, Huang, Jingjing, Wu, Bicheng, Liu, Yan, Tu, Mingming, Pan, Hongli, Lin, Dapeng, Wang, Qingyang, Meng, Renna, Luo, Guohua, Ding, Ming, Shi, Changjian, Qiu, Xifeng, Lv, Guojuan, Zhang, Liping, Jiang, Ning, Ding, Huiying, Zhao, Shumin, Bao, Shen, Chen, Qiaojing, Liang, Mei, Zhang, Kanfu, Peng, Pan, Xie, Qian, Yuan, Yan, Zhuo, Shaohua, Li, Yonghui, Mao, Ban, Zhao, Songlan, Wang, Xianguang, Chen, Xiaonong, Chen, Chenni, Gao, Haijin, Yu, Qinjie, Weng, Yuanmeng, Jin, Xiaobo, Ma, Ping, Luo, Dan, Gao, Man, Wu, Yonghui, Qi, Ping, Zhang, Xiaoying, Du, Lihui, Qu, Chunping, Xu, Kaixiang, Sheng, Yi, Yang, Song, Wang, Xinkui, Tian, Hongxia, Guo, Wenhan, Bao, Weifeng, Lin, Sijia, Zhou, Zhuan, Cui, Wenling, Yang, Kaijie, Su, Lian, He, Zhihong, Zhou, Yu, Zheng, Shubei, Zheng, Lingwei, Jin, Yan, Chen, Min, Pan, Wu, Chia-Chao, SungShuei-Liong Lin, Chih-Chien, Wu, Ming-Shiou, Huang, Jenq-Wen, Chiang, Wen Chih, Chiang, Chih-Kang, Yang, Shao-Yu, Wu, Vin-Cent, Huang, Tao-Min, Chen, Yi-Ting, Lai, Tai-Shuan, Lai, Chun-Fu, Tarng, Der-Cherng, Ou, Shuo-Ming, Yang, Chih-Yu, Tseng, Wei-Cheng, Lin, Yao-Ping, Sung, Junne-Ming, Kuo, Te-Hui, Chang, Yu-Tzu, Wu, An-Bang, Lin, Wei-Hung, Fang, Hua-Chang, Chen, Hsin-Yu, Hsu, Chih-Yang, Lee, Po-Tsang, Chen, Chien-Liang, Chou, Kang-Ju, Ho, Tzung-Yu, Lee, Chien-Te, Ng, Hwee-Yeong, Lee, Yueh-Ting, Chiu, Yi-Wen, Kuo, Hung-Tien, Hung, Chi-Chih, Kuo, Mei-Chuan, Lee, Jia-Jung, Tsai, Jer-Chia, Chang, Jer-Ming, Lee-Moay, Lim, Hwang, Shang-Jyh, Hwang, Jyh-Chang, Wang, Hsien-Yi, Kan, Wei-Chih, Wu, Chia-Chun, Jiang, Ming-Yan, Chien, Chih-Chiang, Wu, Ming-Ju, Tsai, Shang-Feng, Chen, Cheng-Hsu, Chen, Hsi-Hsien, Kao, Chih-Chin, Lin, Yen-Chung, Wu, Yueh-Lin, Yeh, Shu-Ching, Mao Chan, Daniel Tak, Yee Mok, Maggie Ming, Yuen Kwan, Lorraine Pui, Wang Chan, Gary Chi, Kim, Yong-Lim, Cho, Jang-Hee, Lim, Jeong-Hoon, Jung, Hee-Yeon, Park, Sun-Hee, Kim, Chan-Duck, Kim, Kyu Yeun, Park, Jung Tak, Yoo, Tae-Hyun, Han, Seung Hyeok, Chung, Wookyung, Jung, Ji Yong, Lee, Hyun Hee, Chang, Jae Hyun, Ro, Han, Kim, Ae Jin, Lee, Jong Soo, Park, Jongha, Park, Kyung Sun, Yoo, Kyoung Don, Chang, Tae Ik, Kang, Ea Wha, Park, Kyoung Sook, Jin, Kyubok, Kim, Yaerim, Paek, Jinhyuk, Park, Wooyeong, Han, Seungyeup, Kwon, Ohyun, Park, Sung Bae, Kim, Myung-gyu, Oh, SeWon, Lee, Jung Pyo, Lee, Jeonghwan, Jung, Jihoon, Park, Cheol Whee, Kim, Hyung Duk, Kim, Sunggyun, Song, Youngrim, Joo, Narae, Lee, Hyungsuk, Choi, Bum-Soon, Park, Hoon Suk, Ban, Tae Hyun, Liang, Xinling, Lu, Kuo-Cheng, Chan, Tak Mao, Fukagawa, Masafumi, Kinoshita, Jun, Nagai, Chisato, Kojima, Masahiro, and Yu, Xueqing

Published
2023
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20. Implementation of Regenerative Thermal Oxidation Device Based on High-Heating Device for Low-Emission Combustion.

Author

Park, Hoon-Min, Yoon, Dal-Hwan, Lee, Joon-Seong, Jung, Hyun-Min, Lee, Dae-Hee, Jeon, Dong-Hwan, and Lim, Tae-Yeung

Subjects
*HEAT storage, *INCINERATION, *HEAT of combustion, *HEAT recovery, *COMBUSTION chambers
Abstract

In this paper, a heating device is implemented by considering two large factors in a 100 cmm RTO design. First, when the combustion chamber is used for a long time with a high temperature of 750–1100 °C depending on the high concentration VOC gas capacity, there is a problem that the combustion chamber explodes or the function of the rotary is stopped due to the fatigue and load of the device. To prevent this, the 100 cmm RTO design with a changed rotary position is improved. Second, an RTO design with a high-heating element is implemented to combust VOC gas discharged from the duct at a stable temperature. Through this, low-emission combustion emissions and energy consumption are reduced. By implementing a high heat generation device, the heat storage combustion oxidation function is improved through the preservation of renewable heat. Over 177 h of demonstration time, we improved the function of 100 cm by discharging 99% of VOC's removal efficiency, 95.78% of waste heat recovery rate, 21.95% of fuel consumption, and 3.9 ppm of nitrogen oxide concentration. [ABSTRACT FROM AUTHOR]

Published
2024
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21. Vertebral Body Morphology in Neuromuscular Scoliosis with Spastic Quadriplegic Cerebral Palsy.

Author

Değer, Göker Utku, Park, Heon Jung, Park, Kyeong-Hyeon, Park, Hoon, Alhassan, Mohammed Salman, Kim, Hyun Woo, and Park, Kun-Bo

Subjects
ADOLESCENT idiopathic scoliosis, COMPUTED tomography, CEREBRAL palsy, IDIOPATHIC diseases, SCOLIOSIS
Abstract

Background/Objectives: The distorted vertebral body has been studied in scoliosis; however, there is little knowledge about the difference between neuromuscular and idiopathic scoliosis. This study aimed to investigate the vertebral body morphology in patients with spastic quadriplegic cerebral palsy and scoliosis (CP scoliosis) and compare them with those of apex- and Cobb angle-matched patients with adolescent idiopathic scoliosis (AIS). Methods: Thirty-four patients with CP scoliosis and thirty-two patients with AIS were included. The pedicle diameter, chord length, and vertebral body rotation were evaluated at one level above the apex, one level below the apex, and at the apex using a reconstructed computed tomography scan. The apex of the curve and Cobb angle were too diverse between patients with CP scoliosis or AIS. Eighteen patients were matched in each group according to the apex and Cobb angle (within 5-degree differences) of the major curve, and compared between matched groups (mCPscoliosis vs. mAIS). Results: In the comparison of the apex and Cobb angle-matched groups, there was no statistical difference in the Cobb angle between mCPscoliosis (80.7 ± 13.8 degrees) and mAIS (78.6 ± 13.6 degrees, p = 0.426), and the vertebral body rotation (25.4 ± 15.4° in mCPscoliosis vs. 24.4 ± 6.5° in mAIS, p = 0.594). There was no difference in the pedicle diameters of either the convex (3.6 ± 1.1 mm in mCPscoliosis vs. 3.3 ± 1.2 mm in mAIS, p = 0.24) or concave side (3.1 ± 1.2 mm in mCPscoliosis vs. 2.7 ± 1.6 mm in mAIS, p = 0.127). However, the patients in the mCPscoliosis group were younger (12.7 ± 2.5 years vs. 14.6 ± 2.4 years, p = 0.001), and the chord length was shorter on the convex (38.0 ± 5.0 mm vs. 40.4 ± 4.9 mm, p = 0.025) and concave (37.7 ± 5.2 mm vs. 40.3 ± 4.7 mm, p = 0.014) sides compared with those of the mAIS group. Conclusions: With a similar apex and Cobb angle, the vertebral body rotation and pedicle diameter in patients with CP scoliosis were comparable to those with AIS; however, the chord length was shorter in CP scoliosis. For the selection of the pedicle screw in CP scoliosis, the length of the pedicle screw should be more considered than the diameter. [ABSTRACT FROM AUTHOR]

Published
2024
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26. 소아에서 원위 요골의 성장판 및 골간단 골절.

Author

Kim, Hyung Jun and Park, Hoon

Subjects
OPEN reduction internal fixation, FRACTURE fixation, WRIST fractures, PEDIATRICS, SURGICAL complications, UNUNITED fractures, DISTAL radius fractures, ACCIDENTAL falls, FOREARM, ADOLESCENCE, CHILDREN
Abstract

Background: This article aims to summarize the available information and present treatment recommendations. The scope of this discussion is limited to physeal and metaphyseal fractures of the pediatric distal radius. Current Concepts: Pediatric distal radial fractures are common among children and adolescents. The mechanism of injury is usually a fall on an outstretched hand, and fractures typically occur during sports-related activities. Children with distal radial fractures initially present with pain, swelling, and distal forearm deformities. Plain radiographs are essential for evaluating the fracture type and degree of displacement. Complete wrist, forearm, and elbow views should also be assessed, especially for high-energy injuries, to identify ipsilateral fractures. Fractures typically involve the distal radial metaphysis or physis. Metaphyseal fractures are classified as torus, buckle, and bicortical fractures. Most displaced Salter-Harris types I and II and non-displaced metaphyseal fractures can be treated with closed reduction and casting. Operative treatment is recommended if irreducibility or soft-tissue neurovascular compromise is suspected. Operative options include closed reduction, percutaneous pinning, or open reduction, followed by pin or plate fixation. Malunion, nonunion, physeal arrest, ulnocarpal impaction, and nerve injury are possible complications of distal radial fractures in pediatric patients. Discussion and Conclusion: Metaphyseal and physeal fractures of the distal radius are common in children. Most cases are best treated with closed reduction and cast immobilization. Clinicians should be aware of delayed complications and understand how to manage them to ensure successful long-term outcomes. [ABSTRACT FROM AUTHOR]

Published
2024
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36. Structural design and analysis of composite blade for horizontal-axis tidal turbine

Author

Nguyen Quang Duy, Park Hoon Cheol, Kang Taesam, and Ko Jin Hwan

Subjects
beam theory, composite blade, lay-up structure, loading condition, spars, structural design, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

In this work, we report on the structural design of a 5-m-long composite blade intended for use in a horizontal-axis tidal turbine. The blade geometry is constructed through an optimization process to obtain the maximum power coefficient at the desired tip speed ratio of 4.5 by applying the blade element-momentum theory (BEMT). The blade is primarily designed using a NACA 63-424 hydrofoil. The blade structure is designed by using the BEMT to compute the loading conditions at various inflow velocities. Two parallel spars were chosen to produce the blade structure grid, and the preliminary lay-up structure of the composite blade was determined according to the thickness distribution identified using the twisted beam theory under the assumption that the two spars plus the upper and lower skins mostly contribute to the flap-wise bending stiffness while withstanding an external load. Then, high-strength unidirectional and double-bias fiber glass/epoxy materials were chosen to fabricate the blade. The final blade structure was then analyzed in ANSYS Workbench using the finite element method. The results show that the blade structure can withstand the applied load with failure indices

Published
2018
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37. Understanding Ego States: A Prerequisite for Cross-Cultural Training.

Author

Park, Hoon

Abstract

This paper argues that cross-cultural training aimed at improving cultural sensitivity and awareness is a must for students and management trainees pursuing careers with international businesses and for U.S. companies actively seeking strategic alliances with foreign partners. It further argues that understanding the ego states of the parties involved and using this information as an analytical tool when devising training programs will help businesses succeed and ultimately survive in global competition. The paper examines the different ego states in cross-cultural interaction (child ego, parent ego, and adult ego); and the patterns of cross-cultural interaction as they would be experienced in persons meeting with the following ego states: child-to-child; parent-to-parent; adult-to-adult; parent-to-child; adult-to-parent; or adult-to-child. It is noted that cultural differences alone do not necessarily cause negative experiences in cross-cultural communication, and that it is only when the message sender's ego state is not compatible with that of the receiver that cultural differences between the parties become problematic and start to generate negative experiences and impede effective communication. Contains 18 references. (GLR)

Published
1991

39. Clinical Usefulness of PRECISE-DAPT Score for Predicting Bleeding Events in Patients With Acute Coronary Syndrome Undergoing Percutaneous Coronary Intervention: An Analysis From the SMART-DATE Randomized Trial

Author

Choi, Ki Hong, Song, Young Bin, Lee, Joo Myung, Park, Taek Kyu, Yang, Jeong Hoon, Choi, Jin-Ho, Choi, Seung-Hyuk, Oh, Ju-Hyeon, Cho, Deok-Kyu, Lee, Jin Bae, Doh, Joon-Hyung, Kim, Sang-Hyun, Jeong, Jin-Ok, Bae, Jang-Ho, Kim, Byung-Ok, Cho, Jang Hyun, Suh, Il-Woo, Kim, Doo-il, Park, Hoon-Ki, Park, Jong-Seon, Choi, Woong Gil, Lee, Wang Soo, Gwon, Hyeon-Cheol, and Hahn, Joo-Yong

Published
2020
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40. MICROSTRUCTURE, PHASE EVOLUTION, AND MICROWAVE DIELECTRIC PROPERTIES OF Li₂O AND Ga₂O₃ DOPED ZINC ORTHOSILICATE

Author

Shin Kim, Sang-Ok Yoon, Kim Yun-Han, Jeong Seong-Min, and Park Hoon

Subjects
Zinc orthosilicate, Li₂O, Ga₂O₃, Liquid phase sintering, Dielectric constant, Quality factor, Clay industries. Ceramics. Glass, TP785-869
Abstract

Microstructure, phase evolution, and microwave dielectric properties of Li₂O and Ga₂O₃ doped zinc orthosilicate having the composition of Zn1.9Si1.05O₄, i.e. the Zn1.9-2xLixGaxSi1.05O₄ system where x=0.02∼0.10, were investigated. LiGaSiO4 and ZnGa₂O4 are observed as the secondary phase. The densification occurred by the liquid phase in the all specimens. The densification curves showed a sigmoidal shape. As the amount of Li₂O and Ga₂O₃ increased, the temperature indicating the maximum value of bulk density in each composition decreased from 1250°C to 1100°C. The value of dielectric constant against the sintering temperature showed a similar tendency as that of the bulk density. The presence of the liquid phase and the insufficient grain growth may cause the deterioration of the quality factor. The dielectric constant and the quality factor of the specimen of x=0.08 sintered at 1100°C were 6.28 and 27,097 GHz, respectively.

Published
2017
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41. Prediction of intradialytic hypotension using pre-dialysis features – a deep learning-based artificial intelligence model

Author

Lee, Hanbi, primary, Moon, Sung Joon, additional, Kim, Sung Woo, additional, Min, Ji Won, additional, Park, Hoon Suk, additional, Yoon, Hye Eun, additional, Kim, Young Soo, additional, Kim, Hyung Wook, additional, Yang, Chul Woo, additional, Chung, Sungjin, additional, Koh, Eun Sil, additional, and Chung, Byung Ha, additional

Published
2023
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50. Additional file 1 of Modeling of Fabry disease nephropathy using patient derived human induced pluripotent stem cells and kidney organoid system

Author

Cui, Sheng, Fang, Xianying, Lee, Hanbi, Shin, Yoo Jin, Koh, Eun-Sil, Chung, Sungjin, Park, Hoon Suk, Lim, Sun Woo, Lee, Kang In, Lee, Jae Young, Yang, Chul Woo, and Chung, Byung Ha

Abstract

Additional file 1: Figure S1. PCR results of Mycoplasma detection for CMC-Fb03 hiPSC. Figure S2. Cell line authentication by short tandem repeat analysis. STR analysis shows 100% match between PBMC and hiPSC line in CMC-Fb-003. STR, short tandem repeat; hiPSC, human induced pluripotent stem cells. Figure S3. Characterization of CMC-Fb-003 cells. A Typical morphology of hiPSC colony of CMC-Fb-003 hiPSC. Scale bar = 40 μm. B Chromosome karyotyping of CMC-Fb03 hiPSC. hiPSC, human induced pluripotent stem cells. Figure S4. Lyso-Gb-3 level in kidney organoids. Gb-3, globotriaocylceramide.

Published
2023
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