G. B. Sincarsin
Papers
2
Total Citations
65
H-Index
2
About
G. B. Sincarsin is a researcher whose work has made significant contributions to the field of multibody dynamics, with a particular focus on the mathematical modeling of elastic multibody systems. Best known for a landmark series of papers on the dynamics of elastic multibody chains, Sincarsin helped develop rigorous analytical frameworks for understanding complex mechanical systems composed of interconnected flexible bodies. The cornerstone of this work, "Dynamics of an elastic multibody chain: Part B—Global dynamics" (1989), has accumulated 48 citations and introduced the direct-path approach for coordinate system assignment and interbody vector analysis, providing an elegant solution to the challenging problem of global dynamic modeling in topological chain configurations. Building upon this foundation, subsequent work including "Part D—Modelling of joints" (1993) extended the framework to address rotational and translational displacements of arbitrary magnitude at interbody joints, significantly broadening the applicability of the methodology to diverse robotic and mechanical systems. Sincarsin's research has proven particularly valuable to engineers and scientists working in robotics, aerospace structures, and flexible mechanism design, where accurate modeling of elastic deformation in linked systems is essential for reliable performance prediction and control.
Research Focus
Key Achievements
Top Papers
- 1Dynamics of an elastic multibody chain: Part B—Global dynamics48 citations · 1989
- 2Dynamics of an elastic multibody chain: Part D—Modelling of joints17 citations · 1993
Key Collaborators
Related papers
- Dynamics of an elastic multibody chain: Part D—Modelling of joints
- Dynamics of an elastic multibody chain: Part B—Global dynamics
- Dynamics of an elastic multibody chain: Part C—Recursive dynamics
- Dynamic modeling of multibody robotic mechanisms: incorporating closed-chains, friction, higher-pair joints, and unactuated and unsensed joints
- Influence of Elastic and Dissipative Properties of Hinge Joints on Dynamics of Space Manipulator
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