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FULL TEXT IN RUSSIAN
Mekhatronika, Avtomatizatsiya, Upravlenie, 2016, vol. 17, no. 11, pp. 762—768
DOI: 10.17587/mau.17.762-768
Simulation of the Actuator Dynamics of the Virtual Robots in the Training Complexes
Å. V. Strashnov, strashnov_evg@mail.ru, M. A. Torgashev, mtorg@mail.ru, Scientific Research Institute for System Analysis, RAS, Moscow, 117218, Russian Federation
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Corresponding author: Strashnov Åvgenii V., Leading Programmer, Scientific Research Institute for System Analysis, RAS, Moscow, 117218, Russian Federation
e-mail: strashnov_evg@mail.ru
Received on May 25, 2016
Accepted on June 04, 2016
The topic of the article is the problem of the actuator dynamics simulation for the training complexes. Usually, when the mathematical model for a motor is formulated, its passport parameters are used: starting torque, idle speed and electromechanical time constant. The actuator creates the control action, which makes it possible to control the relative motion of the two joining rigid bodies. For the real-time dynamic simulation of the articulated rigid bodies the method of the sequential impulses is proposed. Within this method the actuator dynamics is realized by means of a special constraint, which correlates the bodies’ coordinates with the engine’s angle rotation. In order to model the complex mechanisms, which are controlled by a single motor, a special "repeater" constraint is proposed. This constraint allows us to simulate the movement of the manipulator gripper jaws. The method of the sequential impulses with stabilization on the basis of the split impulses is iterative, while the use of the specific criterions for the end of iteration allows a real-time simulation. The proposed algorithms and methods are implemented in the software modules written in C+ +. Their approbation was carried out in a dynamic subsystem for a robot simulator. The studies demonstrated that the proposed methods and algorithms allow us to solve the problems, associated with implementation of different kinds of robots control. Such technologies can also be used in the virtual labs, simulation complexes, systems of augmented virtual environment and other applications.
Keywords: actuator, articulated body system, actuator constraint and "repeater" constraint, sequential impulses method, virtual environment system
Acknowledgements: This work was supported by RFBR grant projects ¹ 16-07-01104, ¹ 16-37-00107 mol_a
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For citation:
Strashnov Å. V., Torgashev M. A. Simulation of the Actuator Dynamics of the Virtual Robots in the Training Complexes, Mekhatronika, Avtomatizatsiya, Upravlenie, 2016, vol. 17, no. 10, pp. 762—768.
DOI: 10.17587/mau.17.762-768
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