考虑到WRS 2018中任务板任务使用工具或夹具的机器人装配系统性能分析

IF 1.4 4区 计算机科学 Q4 ROBOTICS
Hiroki Dobashi, Koki Ogawa, Mizuho Shibata, Wataru Uemura, Yasuyoshi Yokokohji
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In this paper, we introduce frame sets to represent mainly contact states between robots, tools, or jigs and target parts to be handled for such a frame-by-frame analysis of the recorded videos, and based on the frame sets, we analyze the performance of robotic assembly systems of other teams as well as the top four teams in the task-board task competition in the WRS 2018, considering the usage of tools or jigs.Keywords: Task-board taskrobotic assembly systemWorld Robot Summit AcknowledgementsThe authors would like to express their gratitude to everyone involved in the design and operation of the Assembly Challenge in the Industrial Robotics Category, the WRS 2018, especially those who greatly contributed to the competition as referees and health and safety inspectors.Disclosure statementNo potential conflict of interest was reported by the author(s).Notes1 Note that strictly speaking, analysis with films is called ‘film analysis’.2 The video is not open to the public unlike those available on the official YouTube channel of the WRS [Citation28].3 In the task-board task competition, not the tightening torque but only the amount of rotation of each of these parts was evaluated. 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Since 2022, he has been a master course student at Graduate School of Systems Engineering, Wakayama University. His current research interest is robotic manipulation for manufacturing. He received the Best Session Presentation Award of the 23rd SICE System Integration Division Annual Conference.Mizuho ShibataMizuho Shibata received the PhD degree in mechanical engineering from Ritsumeikan University in 2006. He is currently an associate professor in the Department of Robotics, Faculty of Engineering, Kindai University, Japan. His current research interests are the development of applications in soft robotics. He was a member of the Industrial Robotics Competition Committee, the World Robot Summit.Wataru UemuraWataru Uemura received the BE, ME, and DE degrees from Osaka City University, in 2000, 2002, and 2005, respectively. 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引用次数: 0

摘要

任务板任务是指机器人执行与特定产品的装配相关的一组基本装配操作,如将一个零件插入另一个零件、拧紧螺栓和螺母、连接柔性零件等。在2018年世界机器人峰会(WRS)工业机器人类别的任务板任务竞赛中,来自世界各地的15支团队完成了任务。在我们之前的工作中,我们一帧一帧地观察比赛录像,并手动调查前四名团队的机器人系统的性能,只关注机器人是否接触目标部件。在本文中,我们引入帧集来表示机器人、工具或夹具与待处理目标部件之间的主要接触状态,对录制的视频进行了帧集分析,并基于帧集分析了WRS 2018任务板任务竞赛中其他团队以及前四名团队的机器人装配系统的性能,考虑了工具或夹具的使用情况。关键词:任务板任务机器人装配系统世界机器人峰会致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢披露声明作者未报告潜在的利益冲突。注1请注意,严格地说,用电影进行分析被称为“电影分析”与WRS的官方YouTube频道不同,该视频不向公众开放[Citation28]在任务板任务竞赛中,不评估拧紧扭矩,而只评估每个零件的旋转量。在这种情况下,零件7-1、7-2、8、12和13的拧紧甚至可以由人手完成(不使用工具),而零件11由于其小尺寸而难以处理从竞赛委员会和[Citation28]录制的视频中都无法提取出电动螺丝刀的清晰图像,但在[Citation29]中给出了清晰的图像在[Citation22]中,直径等于或大于其长度的圆柱形零件被视为非圆柱形零件。本工作基于新能源和工业技术开发组织(NEDO)委托的一个项目的结果[P17004],并得到了日本科学促进会(JSPS) KAKENHI资助号JP21K03978的支持。hiroki Dobashi分别于2007年、2009年和2012年获得京都大学机械工程学士、硕士和博士学位。2012年至2013年,他在关西学院大学科学技术学院担任合同助理。2013年至2017年,任立命馆大学科学与工程学院机器人系助理教授。2017年至2023年任和歌山大学系统工程学院系统工程系讲师。他目前是和歌山大学的副教授。他目前的研究方向是制造和物流领域的机器人操作。他是日本机器人学会(RSJ)、仪器与控制工程师学会(SICE,日本)、系统、控制与信息工程师学会(ISCIE,日本)、日本机械工程师学会(JSME)和IEEE的成员。他是世界机器人峰会工业机器人竞赛委员会成员。Koki OgawaKoki Ogawa于2022年获得和歌山大学系统工程学士学位。自2022年起,他一直在和歌山大学系统工程研究生院攻读硕士课程。他目前的研究兴趣是制造业的机器人操作。他获得了第23届SICE系统集成部门年度会议最佳会议演讲奖。ShibataMizuho Shibata于2006年获得立命馆大学机械工程博士学位。他目前是日本近畿大学工学院机器人系副教授。他目前的研究兴趣是软机器人的应用开发。他是世界机器人峰会工业机器人竞赛委员会成员。Wataru Uemura分别于2000年、2002年和2005年获得大阪城市大学的学士学位、硕士学位和硕士学位。他是日本滋贺琉球大学先进科学技术学院电子、信息和通信工程课程副教授。他是IEEE、RoboCup等组织的成员。他是机器人世界杯日本全国委员会的执行董事。 他是世界机器人峰会工业机器人竞赛委员会成员。他分别于1984年和1986年获得京都大学精密工程学士和硕士学位,并于1991年获得机械工程博士学位。从1988年到1989年,他是京都大学自动化研究实验室的研究助理。1989年至1992年,他是京都大学工程学院应用系统科学部的研究助理。1992年至2005年,他在京都大学机械工程系担任副教授。2005年至2009年,他担任京都大学工程研究生院机械工程与科学系副教授。1994年至1996年,他是卡内基梅隆大学机器人研究所的访问学者。自2009年以来,他一直担任神户大学工程研究生院机械工程系教授。他目前的研究兴趣是机器人和虚拟现实,包括远程操作系统,机器人手和触觉界面。他是日本机器人学会(RSJ)、日本机械工程师学会(JSME)和仪器与控制工程师学会(SICE,日本)的会员,也是系统、控制和信息工程师学会(ISCIE,日本)、日本虚拟现实学会和IEEE(高级会员)的成员。他曾担任世界机器人峰会工业机器人竞赛委员会主席。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Analysis of the performance of robotic assembly systems considering the usage of tools or jigs for the task-board task in the WRS 2018
AbstractA task-board task is a task in which robots perform a set of fundamental assembly operations related to the assembly of a specific product such as inserting a part into another part, tightening bolts and nuts, attaching flexible parts, etc. In the task-board task competition in the industrial robotics category of the World Robot Summit (WRS) 2018, 15 teams from around the world performed the task. In our previous work, we observed recorded videos of the competition frame by frame and manually investigated the performance of robotic systems of the top four teams, focusing only on whether robots contact target parts. In this paper, we introduce frame sets to represent mainly contact states between robots, tools, or jigs and target parts to be handled for such a frame-by-frame analysis of the recorded videos, and based on the frame sets, we analyze the performance of robotic assembly systems of other teams as well as the top four teams in the task-board task competition in the WRS 2018, considering the usage of tools or jigs.Keywords: Task-board taskrobotic assembly systemWorld Robot Summit AcknowledgementsThe authors would like to express their gratitude to everyone involved in the design and operation of the Assembly Challenge in the Industrial Robotics Category, the WRS 2018, especially those who greatly contributed to the competition as referees and health and safety inspectors.Disclosure statementNo potential conflict of interest was reported by the author(s).Notes1 Note that strictly speaking, analysis with films is called ‘film analysis’.2 The video is not open to the public unlike those available on the official YouTube channel of the WRS [Citation28].3 In the task-board task competition, not the tightening torque but only the amount of rotation of each of these parts was evaluated. In that case, the tightening of parts 7-1, 7-2, 8, 12, and 13 can be achieved even by human hand itself (without using the tools) whereas part 11 is hard to handle due to its small size.4 No clear picture of the electric screwdriver can be extracted from either the video recorded by the competition committee or [Citation28], but a clear one is given in [Citation29].5 In [Citation22], a cylindrical part with a diameter which is equal to or greater than its length is treated as a non-cylindrical part.Additional informationFundingThis work is based on results obtained from a project commissioned by the New Energy and Industrial Technology Development Organization (NEDO)[P17004] and was supported by Japan Society for the Promotion of Science (JSPS) KAKENHI Grant Number JP21K03978.Notes on contributorsHiroki DobashiHiroki Dobashi received the BS, MS, and PhD degrees in mechanical engineering from Kyoto University in 2007, 2009, and 2012, respectively. From 2012 to 2013, he was a contract assistant at School of Science and Technology, Kwansei Gakuin University. From 2013 to 2017, he was an assistant professor in the Department of Robotics, Faculty of Science and Engineering, Ritsumeikan University. From 2017 to 2023, he was a lecturer in the Department of Systems Engineering, Faculty of Systems Engineering, Wakayama University. He is currently an associate professor in the department, Wakayama University. His current research interests are robotic manipulation for manufacturing and logistics. He is a member of the Robotics Society of Japan (RSJ), the Society of Instrument and Control Engineers (SICE, Japan), the Institute of Systems, Control and Information Engineers (ISCIE, Japan), the Japan Society of Mechanical Engineers (JSME), and the IEEE. He was a member of the Industrial Robotics Competition Committee, the World Robot Summit.Koki OgawaKoki Ogawa received the BS degree in systems engineering from Wakayama University in 2022. Since 2022, he has been a master course student at Graduate School of Systems Engineering, Wakayama University. His current research interest is robotic manipulation for manufacturing. He received the Best Session Presentation Award of the 23rd SICE System Integration Division Annual Conference.Mizuho ShibataMizuho Shibata received the PhD degree in mechanical engineering from Ritsumeikan University in 2006. He is currently an associate professor in the Department of Robotics, Faculty of Engineering, Kindai University, Japan. His current research interests are the development of applications in soft robotics. He was a member of the Industrial Robotics Competition Committee, the World Robot Summit.Wataru UemuraWataru Uemura received the BE, ME, and DE degrees from Osaka City University, in 2000, 2002, and 2005, respectively. He is an associate professor in Electronics, Information and Communication Engineering Course, Faculty of Advanced Science and Technology, Ryukoku University in Shiga, Japan. He is a member of IEEE, RoboCup, and others. He is an executive director of the RoboCup Japanese National Committee. He was a member of the Industrial Robotics Competition Committee, the World Robot Summit.Yasuyoshi YokokohjiYasuyoshi Yokokohji received the BS and MS degrees in precision engineering in 1984 and 1986, respectively, and PhD degree in mechanical engineering in 1991, all from Kyoto University. From 1988 to 1989, he was a research associate in the Automation Research Laboratory, Kyoto University. From 1989 to 1992, he was a research associate in the Division of Applied Systems Science, Faculty of Engineering, Kyoto University. From 1992 to 2005, he was an associate professor in the Department of Mechanical Engineering, Kyoto University. From 2005 to 2009, he was an associate professor in the Department of Mechanical Engineering and Science, Graduate School of Engineering, Kyoto University. From 1994 to 1996, he was a visiting research scholar at the Robotics Institute, Carnegie Mellon University. Since 2009, he has been a professor in the Department of Mechanical Engineering, Graduate School of Engineering, Kobe University. His current research interests are robotics and virtual reality including teleoperation systems, robot hands, and haptic interfaces. He is a fellow of the Robotics Society of Japan (RSJ), the Japan Society of Mechanical Engineers (JSME), and the Society of Instrument and Control Engineers (SICE, Japan), and a member of the Institute of Systems, Control and Information Engineers (ISCIE, Japan), the Virtual Reality Society of Japan, and the IEEE (Senior Member). He was a chairperson of the Industrial Robotics Competition Committee, the World Robot Summit.
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来源期刊
Advanced Robotics
Advanced Robotics 工程技术-机器人学
CiteScore
4.10
自引率
20.00%
发文量
102
审稿时长
5.3 months
期刊介绍: Advanced Robotics (AR) is the international journal of the Robotics Society of Japan and has a history of more than twenty years. It is an interdisciplinary journal which integrates publication of all aspects of research on robotics science and technology. Advanced Robotics publishes original research papers and survey papers from all over the world. Issues contain papers on analysis, theory, design, development, implementation and use of robots and robot technology. The journal covers both fundamental robotics and robotics related to applied fields such as service robotics, field robotics, medical robotics, rescue robotics, space robotics, underwater robotics, agriculture robotics, industrial robotics, and robots in emerging fields. It also covers aspects of social and managerial analysis and policy regarding robots. Advanced Robotics (AR) is an international, ranked, peer-reviewed journal which publishes original research contributions to scientific knowledge. All manuscript submissions are subject to initial appraisal by the Editor, and, if found suitable for further consideration, to peer review by independent, anonymous expert referees.
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