Y
Yoon Jae Kim
Researcher at Seoul National University
Publications - 31
Citations - 711
Yoon Jae Kim is an academic researcher from Seoul National University. The author has contributed to research in topics: Robotic arm & Motor imagery. The author has an hindex of 11, co-authored 29 publications receiving 429 citations. Previous affiliations of Yoon Jae Kim include New Generation University College.
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Soft robot review
TL;DR: A review of state-of-the-art researches on soft robots and application areas can be found in this paper, where several innovative techniques and diverse materials and fabrication methods are described.
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Time-averaged simulated microgravity (taSMG) inhibits proliferation of lymphoma cells, L-540 and HDLM-2, using a 3D clinostat
TL;DR: Findings in this study could be significantly valuable in developing novel strategies for selective killing of cancer cells such as lymphoma in humans in space.
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A study on a robot arm driven by three-dimensional trajectories predicted from non-invasive neural signals
Yoon Jae Kim,Park Sung Woo,Hong Gi Yeom,Moon Suk Bang,June Sic Kim,Chun Kee Chung,Chun Kee Chung,Chun Kee Chung,Sungwan Kim,Sungwan Kim +9 more
TL;DR: An integrated robot arm-gripper system (IRAGS) that is driven by three-dimensional (3D) hand trajectories predicted from non-invasive neural signals was developed and verified and reaching and grasping motions were performed.
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Microgravity induces autophagy via mitochondrial dysfunction in human Hodgkin's lymphoma cells.
Ae Jin Jeong,Yoon Jae Kim,Min Hyuk Lim,Haeri Lee,Kumhee Noh,Byung Hak Kim,Jin Woong Chung,Chung-Hyun Cho,Sungwan Kim,Sang Kyu Ye +9 more
TL;DR: Exposure of human HL cells to taSMG for 2 days increased their reactive oxygen species (ROS) production and NADPH oxidase family gene expression, while mitochondrial mass, ATPase, ATP synthase, and intracellular ATP levels were decreased.
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Wave attenuation and dissipation mechanisms in viscoelastic phononic crystals
TL;DR: In this article, the authors investigated wave attenuation and dissipation mechanisms in viscoelastic phononic crystals (VPCs) having different inclusion types in a long-wavelength regime and carried out wave simulations revealing the energy dissipation by a finite VPC structure inserted inside an elastic medium.