Analysis on Degree of Freedom and Singularity of Mechanism Based on Topological Graph Theory

Jian Guo Luo; Mao Yan He

doi:10.4028/www.scientific.net/AMR.430-432.1943

Paper Titles

Research of Precision CNC Internal Grinder Soft-PLC System Based on Embedded Technology
p.1925

The Research on the Robot Vision System Based on the Target Clamping Technology
p.1929

Study on Integration of Equipment Running Status and the Management Model Based on Graphical
p.1935

Study on Remote Condition Monitoring and Fault Diagnosis System for Rotating Machinery Based on LabVIEW
p.1939

Analysis on Degree of Freedom and Singularity of Mechanism Based on Topological Graph Theory
p.1943

Tilt Measurement with a MEMS Accelerometer Based on Kalman Filter
p.1947

The Research on the Control System of Bulldozer Based on the EPEC Controller and its Traction Experiment
p.1952

Testing Technology Research on Actual Effect by Construction Piled Pipes in Buried Pipe System of Ground Source Heat Pump
p.1957

Picking Robot Camera Calibration System Based on OpenCV
p.1963

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 430-432Analysis on Degree of Freedom and Singularity of...

Analysis on Degree of Freedom and Singularity of Mechanism Based on Topological Graph Theory

Abstract:

Based on the analysis of current developing state of graph theory, define the description of spacial moving capability of common couples and translation base and rotation base of mechanism, based on the new description method in topological graph theory. DOF(degree of freedom) of hybrid mechanism analysised with example based on the definition of dimensionity of branch spacial moving capability and mechanism spacial moving capability, necessary and sufficient condition of nonsingularity of mechanism presented, as well as the necessary and sufficient condition of singularity of mechanism deduced , in-phase and assimilation condition and in-phase and dissimilarity condition and asynchronism condition of limitation of input base of branch adopted, case number of position singularity and pose singularity and position and pose singularity obtained then, still the way of founding the combination and case number of common serial mechanism and parallel mechanism and hybrid mechanism mentioned.

You might also be interested in these eBooks

Frontiers of Advanced Materials and Engineering Technology

View Preview

Info:

Periodical:

Advanced Materials Research (Volumes 430-432)

Pages:

1943-1946

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.430-432.1943

Citation:

Cite this paper

Online since:

January 2012

Authors:

Jian Guo Luo, Mao Yan He

Keywords:

Degree of Freedom, Graph Theory, Mechanism, Set, Singularity

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] F. Freudenstein, L. Dobrjanskyj: Congress of Applied Mechanics Vol. 12(1964), p.420.

Google Scholar

[2] K. D. Lu: Graph theory and its application(TsinghuaUniversity Publishing House, Beijing1984).

Google Scholar

[3] H. F. Ding, Z. Huang, submitted to Journal of Mechanical Engineering(2007), in Chinese.

Google Scholar

[4] M. Grübler: Allgemeine Eigenschaften der zwangläufigen ebenen kinematische (Civilingenieur, Verhandlungen1883).

Google Scholar

[5] M. Grübler: Allgemeine Eigenschaften der zwangläufigen ebenen kinematische (Civilingenieur, Verhandlungen1885).

Google Scholar

[6] K. Kutzbach: Einzelfragen aus dem gebiet der Maschinenteile(Zeitschrift der Verein Destscher, Ingenieur1933).

Google Scholar

[7] C. H. Suh, C. W. Radcliffe: Kinematics and Mechanisms Design(Prentice Hall, New York1978).

Google Scholar

[8] G. N. Sandor, A. G. Erdman: Advance Mechanism: Analysis and Synthesis(Prentice Hall, New York1984).

Google Scholar

[9] Z. Huang, Y. S. Zhao and T. S. Zhao: High level spacial mechanics(High Education Publishing House, Beijinig 2006) , in Chinese.

Google Scholar

[10] T. L. Yang: Basic theory on configuration and kinematics and kinetics of machinery system(Machinery Industry Publishing House, Beijing1995) , in Chinese.

Google Scholar

[11] T. S. Mruthyunjaya: Journal of Mechnism and Machine Theory Vol. 41 (2003), pp.23-25.

Google Scholar

[12] Z. Y. Chang, C. Zhang and Y. H. Yang, et al.: Journal of Mechnism and Machine Theory Vol. 40 (2002), pp.158-163.

Google Scholar

[13] J. G. Luo, M. Y. He and Z. Lu, et al.: Journal of Mechanical Engineering Vol. 44 (2008), pp.65-69, in Chinese.

Google Scholar