Tae-Woong Kang scite author profile

Tae-Woong Kang

5Publications

11Citation Statements Received

157Citation Statements Given

How they've been cited

How they cite others

138

157

Affiliations

Pusan National University, Dankook University

Publications

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High-Speed Autonomous Robotic Assembly Using In-Hand Manipulation and Re-Grasping

Kang

Song

et al. 2020

Applied Sciences

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This paper presents an autonomous robotic assembly system for Soma cube blocks, which, after observing the individual blocks and their assembled shape, quickly plans and executes the assembly motion sequence that picks up each block and incrementally build the target shape. A multi stage planner is used to find the suitable assembly solutions, assembly sequences and grip sequences considering various constraints, and re-grasping is used when the block target pose is not directly realizable or the block pose is ambiguous. The suggested system is implemented for a commercial UR5e robotic arm and a novel two degrees of freedom (DOF) gripper capable of in-hand manipulation, which further speeds up the manipulation speed. It was experimentally validated through a public competitive demonstration, where the suggested system completed all assembly tasks reliably with outstanding performance.

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Design and Control of a Open-Source, Low Cost, 3D Printed Dynamic Quadruped Robot

et al. 2021

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In this paper, we present a new open source dynamic quadruped robot, PADWQ (pronounced pa-dook), which features 12 torque controlled quasi direct drive joints with high control bandwidth, as well as onboard depth sensor and GPU-equipped computer that allows for a highly dynamic locomotion over uncertain terrains. In contrast to other dynamic quadruped robots based on custom actuator and machined metal structural parts, the PADWQ is entirely built from off the shelf components and standard 3D printed plastic structural parts, which allows for a rapid distribution and duplication without the need for advanced machining process. To make sure that the plastic structural parts can withstand the stress of dynamic locomotion, we performed finite element analysis (FEA) on leg structural parts as well as a continuous walking test using the physical robot, both of which the robot has passed successfully. We hope this work to help a wide range of researchers and engineers that need an affordable, highly capable and easily customizable quadruped robot.

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Anthropomorphic Grasping of Complex-Shaped Objects Using Imitation Learning

Kim

Kang

et al. 2022

Applied Sciences

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This paper presents an autonomous grasping approach for complex-shaped objects using an anthropomorphic robotic hand. Although human-like robotic hands have a number of distinctive advantages, most of the current autonomous robotic pickup systems still use relatively simple gripper setups such as a two-finger gripper or even a suction gripper. The main difficulty of utilizing human-like robotic hands lies in the sheer complexity of the system; it is inherently tough to plan and control the motions of the high degree of freedom (DOF) system. Although data-driven approaches have been successfully used for motion planning of various robotic systems recently, it is hard to directly apply them to high-DOF systems due to the difficulty of acquiring training data. In this paper, we propose a novel approach for grasping complex-shaped objects using a high-DOF robotic manipulation system consisting of a seven-DOF manipulator and a four-fingered robotic hand with 16 DOFs. Human demonstration data are first acquired using a virtual reality controller with 6D pose tracking and individual capacitive finger sensors. Then, the 3D shape of the manipulation target object is reconstructed from multiple depth images recorded using the wrist-mounted RGBD camera. The grasping pose for the object is estimated using a residual neural network (ResNet), K-means clustering (KNN), and a point-set registration algorithm. Then, the manipulator moves to the grasping pose following the trajectory created by dynamic movement primitives (DMPs). Finally, the robot performs one of the object-specific grasping motions learned from human demonstration. The suggested system is evaluated by an official tester using five objects with promising results.

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Unified Software Platform for Intelligent Home Service Robots

Kang

Song

et al. 2020

Applied Sciences

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Although the mobile manipulation capability is crucial for a service robot to perform physical work without human support, the long-term autonomous operation of such a mobile manipulation robot in a real environment is still a tremendously difficult task. In this paper, we present a modular, general purpose software framework for intelligent mobile manipulation robots that can interact with humans using complex human speech commands; navigate smoothly in tight indoor spaces; and finally detect and manipulate various household objects and pieces of furniture autonomously. The suggested software framework is designed to be easily transferred to different home service robots, which include the Toyota Human Support Robot (HSR) and our Modular Service Robot-1 (MSR-1) platforms. It has successfully been used to solve various home service tasks at the RoboCup@Home and World Robot Summit international service robot competitions with promising results.

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Calculation of Storm Surge by Non-stationary GEV Distribution Model

Jung¹,

Kang²,

Ahn³

2018

J. Korean Soc. Hazard Mitig

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In Republic of Korea, stationary extreme value distribution models are generally used for estimating the design of coastal and harbor structures. However, due to the impact of climate change, the probability of typhoon is recently increasing. In order to consider this tendency, a non-stationary extreme value distribution model was applied in this study. The annual maximum storm surges were calculated by the storm surge model, and then, results from the storm surge model were applied to a non-stationary GEV (Generalized Extreme Value) distribution model to calculate the extreme storm surge height. The storm surge height of 50 year return period by non-stationary model was 28% higher than the storm surge height of a previous study that used stationary models. The overall results achieved in this study are expected to provide data and useful in establishing a master paln for disaster prevention.

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Tae-Woong Kang

High-Speed Autonomous Robotic Assembly Using In-Hand Manipulation and Re-Grasping

Design and Control of a Open-Source, Low Cost, 3D Printed Dynamic Quadruped Robot

Anthropomorphic Grasping of Complex-Shaped Objects Using Imitation Learning

Unified Software Platform for Intelligent Home Service Robots

Calculation of Storm Surge by Non-stationary GEV Distribution Model

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