Jeongyun Kim scite author profile

This study was performed to investigate the efficiency of hindered-settling column for recovering carbon from Korean anthracite. Laboratory scale hindered-settling equipment was set and two coal samples were prepared for tests. For each samples, washability analyses were performed, and several set of tests were conducted to evaluate the effect of two important operating variables, set point and teeter water flow rate. Also, mathematical model of continuous hindered-settling separation was developed. Modeling program was established and simulations were carried out to evaluate column performance at several operating variables, such as dispersion and teeter water flow rate.

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Night-to-day thermal image translation for deep thermal place recognition

Lee

Gil

Yun

et al. 2023

Intel Serv Robotics

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Ambiguity-Aware Multi-Object Pose Optimization for Visually-Assisted Robot Manipulation

Jeon

Kim

Ryu

et al. 2023

IEEE Robot. Autom. Lett.

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6D object pose estimation aims to infer the relative pose between the object and the camera using a single image or multiple images. Most works have focused on predicting the object pose without associated uncertainty under occlusion and structural ambiguity (symmetricity). However, these works demand prior information about shape attributes, and this condition is hardly satisfied in reality; even asymmetric objects may be symmetric under the viewpoint change. In addition, acquiring and fusing diverse sensor data is challenging when extending them to robotics applications. Tackling these limitations, we present an ambiguity-aware 6D object pose estimation network, PrimA6D++, as a generic uncertainty prediction method. The major challenges in pose estimation, such as occlusion and symmetry, can be handled in a generic manner based on the measured ambiguity of the prediction. Specifically, we devise a network to reconstruct the three rotation axis primitive images of a target object and predict the underlying uncertainty along each primitive axis. Leveraging the estimated uncertainty, we then optimize multi-object poses using visual measurements and camera poses by treating it as an object SLAM problem. The proposed method shows a significant performance improvement in T-LESS and YCB-Video datasets. We further demonstrate real-time scene recognition capability for visually-assisted robot manipulation. Our code and supplementary materials are available at https://github.com/rpmsnu/PrimA6D.

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Jeongyun Kim

Modular Counter-Fischer–Indole Synthesis through Radical-Enolate Coupling

Recovering Carbon from Korean Anthracite by Hindered-Settling Separation

Night-to-day thermal image translation for deep thermal place recognition

Ambiguity-Aware Multi-Object Pose Optimization for Visually-Assisted Robot Manipulation

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