Author:
Mitrev R P,Tudjarov B N,Todorov T S
Abstract
Abstract
The paper presents the development of a Web-based Virtual Reality (VR) environment for simulation and visualization of the motion of a hydraulically driven heavy manipulator with a freely suspended payload. Two main problems are resolved in the paper. First, a combined mathematical model of the manipulator, considered as a 2 DOF discrete mechanical model is derived. It represents the dynamics of the two key functional subsystems of the manipulator – mechanical subsystem, consisting of a link and freely suspended payload and hydraulic subsystem, consisting of a hydraulic cylinder. Second, by the use of the contemporary Web technologies a VR environment for simulation, visualization and animation of the obtained results is developed. The produced VR environment is easy reused and shared with other users and thus considerably facilitates the design, investigation, and e-learning of such type of system.
Reference17 articles.
1. Kinematic analysis of mechanisms using MSC Adams;Hroncová;Applied Mechanics and Materials,2014
2. Applying the ANSYS simulation to study the cushion performance of paper-pulp on the structural unit;Du,2009
3. ADAMS-MATLAB co-simulation for kinematics, dynamics, and control of the Stewart–Gough platform;Sosa-Méndez;International Journal of Advanced Robotic Systems,2017
4. A Industrial evaluation of integrated performance analysis and equation model debugging for equation-based models;Kinnander;Modeling, Identification and Control,2016
5. 20-Sim implementation of bond graph models of flexible photovoltaic arrays based on data sheets;Villa-Villaseñor,2015