Research and Implementation of an Augmented Assembly System Based on Markers

Guo Jing Lei; Jie Chen

doi:10.4028/www.scientific.net/AMM.556-562.6140

Paper Titles

Search on Ignition Interference Prevention of Vehicle Safety System
p.6123

Research on Collision Avoidance in Terminal Area Based on RNP and 3D Paths
p.6128

Study on Application of Ethernet Passive Optical Network in Auxiliary Control System of Smart Substation
p.6132

The Technology Study of BLDCM Speeding on Different PWM Mode
p.6136

Research and Implementation of an Augmented Assembly System Based on Markers
p.6140

Design of Personnel Position System of Mine Based on ZigBee Technology
p.6145

A Web Automation Testing Framework over Cloud
p.6149

An Eye Tracking Study on Visual Search and Browse Strategies of Elderly People on Web Pages
p.6154

The Application of Software Testing Technology on Security in Web Application System
p.6159

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 556-562Research and Implementation of an Augmented...

Research and Implementation of an Augmented Assembly System Based on Markers

Abstract:

The traditional virtual assembly technology requires building a true three-dimensional scene of all the assembly data, leading to complex modeling, low sense of reality and efficiency of real-time interaction. An augmented assembly system based on markers is proposed. The camera calibration technique is studied to get its inside and outside parameters first; a 3D registration algorithm based on markers is used to determine the exact location of virtual objects in the real scene then; the augmented assembly system is constructed according to the characteristics of virtual assembly finally. Experimental results show that the augmented reality technology makes the assembly steps appear in front of the staff intuitively and allows them to complete the actual assembly correctly, improving the sense of reality of the operation and interaction efficiency.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volumes 556-562)

Pages:

6140-6144

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.556-562.6140

Citation:

Cite this paper

Online since:

May 2014

Authors:

Guo Jing Lei*, Jie Chen

Keywords:

3D Registration, Augmented Reality, Calibration, Virtual Assembly

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] Gao Jian, Wang Shouzun, Ma Liangli. Research on Universality of Virtual Assembly and Its Application[J]. Computer Applications and Software. 2013, 30(10): 216-219.

Google Scholar

[2] Zhang Zhixian, Liu Jianhua. Physical Assembly Process Simulation Based on Multi-rigid-body Dynamics in Virtual Assembly[J]. Journal of Mechanical Engineering. 2013, 19(5): 90-98.

DOI: 10.3901/jme.2013.05.090

Google Scholar

[3] Luo Bin, Wang Yongtian. Overview of Hybrid Tracking in Augmented Reality[J]. Acta Automatica Sinica. 2013, 39(8): 1185-1201.

DOI: 10.3724/sp.j.1004.2013.01185

Google Scholar

[4] Ruobing Yang. The Study and Improvement of Augmented Reality Based on Feature Maching[J]. Software Engineering and Service Science. 2011, 2(15): 586-589.

DOI: 10.1109/icsess.2011.5982388

Google Scholar

[5] Xu Wenlong. Key Technology Research of the Augmented Reality Actual Registration Based on Vision[D]. Bei Jing: Beijing University of Chemical Technology, (2013).

Google Scholar

[6] Gao X, Hu H, etc. 3-D Augmented Reality Teleoperated Robot System Based on Dual Vision[J]. The Journal of China University of Posts and Telecommunications. 2011, 18(1): 105-112.

DOI: 10.1016/s1005-8885(10)60035-0

Google Scholar

[7] Huang Kan. Research and Application on the Algorithms of Camera Calibration on Computer Stereo Vision[D]. Shenyang: Shenyang University of Technology, (2007).

Google Scholar

[8] Xiong Youjun, Li Shiqi, Liu Zuguo. Research on Augmented Reality of Tracking Registration[J]. Application Research of Computers. 2005, 22(4): 81-83.

Google Scholar

[9] Meng YueHua, Deng Jiyuan. Application and Development of DirectShow Technology[J]. Computer Systems & Applications. 2013, 1(6): 196-199.

Google Scholar

[10] Wen Kun, Gao Shengfa. The Program Design Principle and Application of DirectShow[J]. Computer Systems & Applications. 2006, 2(3): 25-28.

Google Scholar

[11] Yang Geng. Study of System on Image Recognition and Tracking of Moving Object[J]. Measurement & Control. 2005. 13(3): 267-269.

Google Scholar