Dual Arm Peg-in-Hole Assembly with a Programmed Compliant System

被引:0
作者
Park, Hyeonjun [1 ,2 ]
Kim, Peter Ki [1 ,2 ]
Bae, Ji-Hun [1 ]
Park, Jae-Han [1 ]
Baeg, Moon-Hong [1 ]
Park, Jaeheung [2 ,3 ]
机构
[1] Korea Inst Ind Technol, Ansan, South Korea
[2] Seoul Natl Univ, Grad Sch Convergence Sci & Technol, Seoul, South Korea
[3] Adv Inst Convergence Technol, Suwon, South Korea
来源
2014 11TH INTERNATIONAL CONFERENCE ON UBIQUITOUS ROBOTS AND AMBIENT INTELLIGENCE (URAI) | 2014年
关键词
Dual-arm robot; Peg-in-hole; Compliance; FORCE;
D O I
暂无
中图分类号
TP18 [人工智能理论];
学科分类号
081104 ; 0812 ; 0835 ; 1405 ;
摘要
In order to accomplish a peg-in-hole task with a manipulator, a cognition process is needed to extract the positional information of the objects. However, in the case of a peg-in-hole task with an extremely small clearance, or for work in an unstructured environment, the cognition process has limited accuracy, caused by factors such as resolution and disturbance. Compliance has been considered as a solution to extremely small clearance in the peg-in-hole task. In order to give a manipulator the characteristic of compliance, an RCC (remote center compliance) device is generally used. This paper proposes an alternative: Programmed variable compliance, using virtual spring controllers in task space, and verifies its effectiveness by an experiment involving fine peg-in-hole insertion with a dual arm robot.
引用
收藏
页码:431 / 433
页数:3
相关论文
共 50 条
[11]   Learning peg-in-hole assembly using Cartesian DMPs with feedback mechanism [J].
Liu, Nailong ;
Zhou, Xiaodong ;
Liu, Zhaoming ;
Wang, Hongwei ;
Cui, Long .
ASSEMBLY AUTOMATION, 2020, 40 (06) :895-904
[12]   Robotic Assembly Strategy With Wrist Force Sense for Narrow Clearance Peg-in-Hole [J].
Mei, Yecheng ;
Li, Ruiya ;
Tan, Yuegang ;
Zhu, Ding ;
Li, Tianliang ;
Zhou, Zude .
IEEE TRANSACTIONS ON AUTOMATION SCIENCE AND ENGINEERING, 2025, 22 :8709-8724
[13]   Compliance-Based Robotic Peg-in-Hole Assembly Strategy Without Force Feedback [J].
Park, Hyeonjun ;
Park, Jaeheung ;
Lee, Dong-Hyuk ;
Park, Jae-Han ;
Baeg, Moon-Hong ;
Bae, Ji-Hun .
IEEE TRANSACTIONS ON INDUSTRIAL ELECTRONICS, 2017, 64 (08) :6299-6309
[14]   Uncertainty-Driven Spiral Trajectory for Robotic Peg-in-Hole Assembly [J].
Kang, Hanwen ;
Zang, Yaohua ;
Wang, Xing ;
Chen, Yaohui .
IEEE ROBOTICS AND AUTOMATION LETTERS, 2022, 7 (03) :6661-6668
[15]   The virtual peg-in-hole test [J].
Gomes, GT ;
Amirabdollahian, F ;
Johnson, GR .
Assistive Technology: From Virtuality to Reality, 2005, 16 :647-651
[16]   Study on dual peg-in-hole insertion using of constraints formed in the environment [J].
Su, Jianhua ;
Li, Rui ;
Qiao, Hong ;
Xu, Jing ;
Ai, Qinglin ;
Zhu, Jiankang .
INDUSTRIAL ROBOT-AN INTERNATIONAL JOURNAL, 2017, 44 (06) :730-740
[17]   Contact State Estimation for Peg-in-Hole Assembly Using Gaussian Mixture Model [J].
Lee, Haeseong ;
Park, Suhan ;
Jang, Keunwoo ;
Kim, Seungyeon ;
Park, Jaeheung .
IEEE ROBOTICS AND AUTOMATION LETTERS, 2022, 7 (02) :3349-3356
[18]   Deep Siamese Neural Network-Driven Model for Robotic Multiple Peg-in-Hole Assembly System [J].
Chen, Jinlong ;
Tang, Wei ;
Yang, Minghao .
ELECTRONICS, 2024, 13 (17)
[19]   Robust and Error-Tolerant Peg-in-Hole Assembly Using Simple Control [J].
Ueda, Masanori ;
Tsuji, Tokuo ;
Ishikawa, Shota ;
Hiramitsu, Tatsuhiro ;
Seki, Hiroaki ;
Suzuki, Yosuke ;
Nishimura, Toshihiro ;
Watanabe, Tetsuyou .
IEEE ROBOTICS AND AUTOMATION LETTERS, 2025, 10 (07) :6928-6935
[20]   Robotic assembly for tight tolerant cascaded peg-in-hole process with incomplete constraints [J].
Cheng, Hongtai ;
Liu, Tianzhuo ;
Zhang, Wei ;
Hao, Lina .
ASSEMBLY AUTOMATION, 2020, 40 (05) :769-778
12345