Yeong Geol Bae scite author profile

Yeong Geol Bae

5Publications

10Citation Statements Received

10Citation Statements Given

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Affiliations

Chungnam National University, Korea Atomic Energy Research Institute

Publications

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Balancing Control of a Mobile Manipulator with Two Wheels by an Acceleration-Based Disturbance Observer

Bae

Jung

2018

Int. J. Human. Robot.

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This paper presents the balancing control performance of a mobile manipulator built in the laboratory as a service robot called Korean robot worker (KOBOKER). The robot is designed and implemented with two wheels as a mobile base and two arms with six degrees-of-freedom each. Kinematics and dynamics of the robot are analyzed. For the balancing control performance, two wheels are controlled independently by the time-delayed control method based on the inertia model of the robot. The acceleration information obtained directly from the sensor is used for the modified disturbance observer structure called an acceleration-based disturbance observer (AbDOB). Experimental studies of the balancing control of the robot are conducted to compare the control performances by both a PID control method and an AbDOB.

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Design and Workspace Analysis of Korean Service Home Robot

Bae¹,

Jung²

2013

Journal of Korean Institute of Intelligent Systems

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Design, Implementation, and Control of Two Arms of a Service Robot for Floor Tasks

Bae¹,

Jung²

2013

Journal of the Institute of Electronics Engineers of Korea

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This paper presents the implementation and control of two arms of an indoor service robot for floor tasks. The robot arms are designed to have 6 degrees-of-freedom (DOF), but actually built to have 5 DOF. Forward and inverse kinematics of two arms are analyzed and simulated to confirm the kinematic analysis. Two arms are actually controlled based on the inverse kinematics. The right and left arms are separately controlled to follow different trajectories in order to make sure the functionality of both arms. Experimental studies are conducted to confirm the kinematic analysis and proper operation of two arms.

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Development of a Prototype Robotic System for Radiosurgery with Upper Hemispherical Workspace

Noh

Jeong

Seo

et al. 2017

Journal of Healthcare Engineering

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This paper introduces a specialized robotic system under development for radiosurgery using a small-sized linear accelerator. The robotic system is a 5-DOF manipulator that can be installed above a patient to make an upper hemispherical workspace centered in a target point. In order to determine the optimal lengths of the link, we consider the requirements for the workspace of a linear accelerator for radiosurgery. A more suitable kinematic structure than conventional industrial manipulators is proposed, and the kinematic analysis is also provided. A graphic simulator is implemented and used for dynamic analysis. Based on those results, a prototype manipulator and its control system are under development.

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Design of a moving bed for a radiation therapy system with multiple linear accelerators

et al. 2016

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Yeong Geol Bae

Balancing Control of a Mobile Manipulator with Two Wheels by an Acceleration-Based Disturbance Observer

Design and Workspace Analysis of Korean Service Home Robot

Design, Implementation, and Control of Two Arms of a Service Robot for Floor Tasks

Development of a Prototype Robotic System for Radiosurgery with Upper Hemispherical Workspace

Design of a moving bed for a radiation therapy system with multiple linear accelerators

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