Peg-in-hole assembly strategy based on geometric constraint and hidden Markov model

doi:10.13196/j.cims.2022.12.006

Computer Integrated Manufacturing System ›› 2022, Vol. 28 ›› Issue (12): 3768-3778.DOI: 10.13196/j.cims.2022.12.006

Previous Articles Next Articles

Peg-in-hole assembly strategy based on geometric constraint and hidden Markov model

PAN Baisong^1,2,YAN Tianye^1,2,HU Xinda^1,2,LUO Luping^1,2+,WENG Weini³

1.College of Mechanical Engineering,Zhejiang University of Technology
2.Key Laboratory of Special Equipment Manufacturing and Advanced Processing Technology,Ministry of education,Zhejiang University of Technology
3.Bosch Power Tools (China) Co.,Ltd.

Online:2022-12-31 Published:2023-01-11
Supported by:
Project supported by the Natural Science Foundation of Zhejiang Province,China(No.LQ18E050014).

基于几何约束与隐马尔可夫链模型的轴孔装配策略

潘柏松^1,2,颜天野^1,2,胡鑫达^1,2,罗路平^1,2+,翁微妮³

1.浙江工业大学机械工程学院
2.浙江工业大学特种装备制造与先进加工技术教育部重点实验室
3.博世电动工具(中国)有限公司

基金资助:
浙江省自然科学基金资助项目(LQ18E050014)。

Abstract

Abstract: Aiming at the problems of low efficiency and poor environmental adaptability in automatic assembly of industrial robots,a robot assembly strategy based on geometric constraint and the Hidden Markov Model (HMM) was proposed to accomplish peg-in-hole assembly tasks.The theoretical track of peg-in-hole assembly was obtained by establishing geometrical and mechanical modelling under different contact state and analyzing the geometric constraint and stress characteristic in the assembly process.To ensure the accuracy and robustness in actual assembly process,an admittance controller was implemented to trace the required force,which was decided by Learning from Demonstration (LFD) based on Hidden Markov Model and Gaussian Mixture Regression (HMM-GMR) with few samples.The peg-in-hole experiments were conducted aiming at the clearance of the peg and the hole of 0.16 mm,which was verified the effectiveness of the assembly strategy in large positional deviations and few training samples.

Key words: peg-in-hole assembly, geometric constraint, hidden Markov model, learning from demonstration, admittance control

摘要： 针对工业机器人自动装配效率低、环境适应性差等问题,提出一种基于几何约束物理模型与隐马尔可夫链模型(HMM)的机器人轴孔装配策略。首先,通过建立轴孔各接触状态下几何与力学模型,分析零件装配过程中几何约束与受力特点,以获得轴孔装配策略的理论装配轨迹。其次,应用基于隐马尔可夫链模型和高斯混合回归(HMM-GMR)的少样本示教学习方法获得装配过程中的期望接触力,通过导纳控制器对理论轨迹进行补偿,实现对期望接触力的跟踪,从而保证实际装配过程中接触运动的准确性和鲁棒性。最后,针对最小间隙为0.16 mm的轴孔零件进行装配实验,验证了在少训练样本、较大定位偏差情况下所提出装配策略的有效性。

关键词: 轴孔装配, 几何约束, 示教学习, 隐马尔可夫链模型, 导纳控制

CLC Number:

PAN Baisong, YAN Tianye, HU Xinda, LUO Luping, WENG Weini. Peg-in-hole assembly strategy based on geometric constraint and hidden Markov model[J]. Computer Integrated Manufacturing System, 2022, 28(12): 3768-3778.

潘柏松, 颜天野, 胡鑫达, 罗路平, 翁微妮. 基于几何约束与隐马尔可夫链模型的轴孔装配策略[J]. 计算机集成制造系统, 2022, 28(12): 3768-3778.

[1]	. Path optimization and obstacle avoidance of collaborative robots based on Gaussian noise divergence [J]. , 2021, 27(12): 3503-3510.
[2]	. Research on design method of characteristic curves of large sheet metal sculpture surface steel frame [J]. , 2020, 26(第1): 114-123.
[3]	. Power generation quantity forecasting model of wind turbine considering health status [J]. , 2020, 26(9): 2367-2378.
[4]	. Human-robot coordination movement control method based on force information [J]. , 2018, 24(第8): 2005-2011.
[5]	. Age-dependent hidden Markov model for machinery diagnosis [J]. , 2018, 24(第5): 1147-1154.
[6]	. Tatistical process control based on hidden Markov models with auto-correlated observations [J]. , 2018, 24(第10): 2388-2394.
[7]	. Modeling of chatter recognition system in CNC milling based on ESPRIT and hidden Markov model [J]. , 2016, 22(第8期): 1937-1944.
[8]	DENG Chao1，SUN Yao-zong1，LI Rong2， WANG Yuan-hang 1，XIONG Yao1. Hidden markov model based on the heavy-duty CNC health state estimate [J]. , 2013, 19 (03 ): 0-0.
[9]	GONG Xun, FENG Yi-xiong+, TAN Jian-rong, JIA Wei-qiang. Fault diagnosis based on spatial structure hidden Markov model [J]. , 2012, 18(01): 0-0.
[10]	ZHANG Xiang, FU Hong-ya, SUN Ya-zhou, HAN Zhen-yu. Hidden Markov model based micro-milling tool wear monitoring [J]. , 2012, 18(01): 0-0.
[11]	WAN Chang-jiang, LI Ren-wang. Product intelligent assembly modeling based on ports automatic matching [J]. , 2011, 17(07): 0-0.
[12]	DENG Lei, LI Feng+, YAO Jin-bao. Fault diagnosis based on manifold learning and hidden Markov model [J]. , 2010, 16(10): 0-0.
[13]	WAN Chang-jiang, GU Biao, LU Yu-jun. Semantic inference driven collaborative assembly [J]. , 2010, 16(09): 0-0.
[14]	WANG Wen-dan, QIN Xian-sheng, YING Shen-shun, YAN Xiu-tian, TONG Shu-rong. HMM-based method for selecting solution of product function module [J]. , 2008, 14(02): 0-0.

Peg-in-hole assembly strategy based on geometric constraint and hidden Markov model

基于几何约束与隐马尔可夫链模型的轴孔装配策略

PDF

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 14

Recommended Articles

Metrics