Assisted Research of the Robots Kinematics and Dynamics Behavior with LabVIEW Instrumentation

Adrian Olaru; Serban Olaru

doi:10.4028/www.scientific.net/AMM.332.276

Paper Titles

Control System Design for a Mechatronic Solar Tracker
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Particular Aspects on the Dynamics of Hydraulic Driven Robot with Spherical Joints
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Extension Hybrid Force-Position Robot Control in Higher Dimensions
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Videooptical Surface Shape and Integrity Estimation in Robots Machining
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Assisted Research of the Robots Kinematics and Dynamics Behavior with LabVIEW Instrumentation
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Dynamics of Adaptive-Mechanical CVT (Gear Variator)
p.289

Educational Model for the Kinematic Study of Non-Circular Gears
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Considerations Regarding PWM Characteristics for Accurate Motor Control
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Expert System for Coupling Selection
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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 332Assisted Research of the Robots Kinematics and...

Assisted Research of the Robots Kinematics and Dynamics Behavior with LabVIEW Instrumentation

Abstract:

In the industrial robots research one of the most important problem is to know cinematic and dynamic behavior to use them in the optimization process of the 3D space trajectory. Now, in the world, the results of the dynamic behavior research where obtained by research without one complex matrix model and without LabVIEW virtual instrumentation. In this paper it is show one assisted method and mathematical modeling with quadratic 6x6 matrix equations in the theoretical and experimental cinematic and dynamic analyze of didactical robot. For that where realized and used many virtual LabVIEW instruments (VI) and one didactical robot. All VI-s work on-line with the possibility to change some constructive and functional parameters of the structure or of the command low and see what is happened with the position, velocities, accelerations, forces and moments in all robot’s joints It is possible to try different control low of the movements like: simultaneously, successive or successive and simultaneously in all joints. The most important of the results is the possibility to know in every moment what is the better velocity characteristic for the dynamic behavior, validate easily the dynamic model and to know what is the variation of the absolute joint’s moments, forces, accelerations and velocities to can calculate all mechanical parts in each joints.

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Periodical:

Applied Mechanics and Materials (Volume 332)

Pages:

276-285

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.332.276

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Online since:

July 2013

Authors:

Adrian Olaru, Serban Olaru

Keywords:

Assisted Research, Labview Instrumentation, Robots Dynamics, Robots Kinematics

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References

[1] J. Denavit and R. Hartenberg, "A kinematic notation for lower-pair mechanisms based on matrices", ASME Journal of Applied Mechanics, vol. 22, p.215–221, 1955.