Door-Opening Control of a Service Robot Using the Multifingered Robot Hand

Service robots are spreading their application areas to human coexisting real environments. However, it is still difficult to find an autonomous robot that is capable of manipulation services in a real environment. The three major difficulties of manipulation service can be summarized as follows: 1)...

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Veröffentlicht in:	IEEE transactions on industrial electronics (1982) 2009-10, Vol.56 (10), p.3975-3984
Hauptverfasser:	Woojin Chung, Woojin Chung, Changju Rhee, Changju Rhee, Youngbo Shim, Youngbo Shim, Hyungjin Lee, Hyungjin Lee, Shinsuk Park, Shinsuk Park
Format:	Artikel
Sprache:	eng
Schlagworte:	Autonomous Door-opening control Educational robots Estimates Force sensors Human Humans Manipulators mobile manipulator Mobile robots multifingered robot hand Parameter estimation Robot kinematics Robot sensing systems Robots service robot Service robots Strategy Studies Tasks Uncertainty
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container_title	IEEE transactions on industrial electronics (1982)
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creator	Woojin Chung, Woojin Chung Changju Rhee, Changju Rhee Youngbo Shim, Youngbo Shim Hyungjin Lee, Hyungjin Lee Shinsuk Park, Shinsuk Park
description	Service robots are spreading their application areas to human coexisting real environments. However, it is still difficult to find an autonomous robot that is capable of manipulation services in a real environment. The three major difficulties of manipulation service can be summarized as follows: 1) unstructured human-centered environment; 2) limited resources in a robot; and 3) uncertainties in real environments. This paper deals with the autonomous manipulation task by a service robot in human coexisting environment. We focus on a door-opening problem. In this paper, we concentrate on three issues from the viewpoint of service-robot applications. The first issue is to estimate kinematic parameters by using an active-sensing strategy to overcome uncertainties in a real environment. The second issue is to provide an integrated strategy of motion coordination for door-opening control. This paper discusses the role assignment of each subsystem that depends on the physical characteristics. The third issue is to use the fingertip-contact forces to estimate the external force from a doorknob, instead of using an additional high-cost force sensor at the wrist. The proposed scheme is shown to be useful through experimental results.
doi_str_mv	10.1109/TIE.2009.2025296
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However, it is still difficult to find an autonomous robot that is capable of manipulation services in a real environment. The three major difficulties of manipulation service can be summarized as follows: 1) unstructured human-centered environment; 2) limited resources in a robot; and 3) uncertainties in real environments. This paper deals with the autonomous manipulation task by a service robot in human coexisting environment. We focus on a door-opening problem. In this paper, we concentrate on three issues from the viewpoint of service-robot applications. The first issue is to estimate kinematic parameters by using an active-sensing strategy to overcome uncertainties in a real environment. The second issue is to provide an integrated strategy of motion coordination for door-opening control. This paper discusses the role assignment of each subsystem that depends on the physical characteristics. 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subjects	Autonomous Door-opening control Educational robots Estimates Force sensors Human Humans Manipulators mobile manipulator Mobile robots multifingered robot hand Parameter estimation Robot kinematics Robot sensing systems Robots service robot Service robots Strategy Studies Tasks Uncertainty
title	Door-Opening Control of a Service Robot Using the Multifingered Robot Hand
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