Experimental study on dynamic simulation of open-pit mining scene construction and transportation process
Aiming to address the complexity of the open-pit mine transportation system,including vari-ous influencing factors and associated challenges,we conducted an experimental study on the dynamic simulation of the open-pit mine transportation process using Blender open-source software.The main re-search content involves proposing ideas for visualizing and dynamically simulating the transportation process in open-pit mines,developing the necessary environment,and creating a three-dimensional model of the open-pit mine transportation scene using Blender software.The study introduces a dynamic visualization simulation program"Blender + Python"to establish a framework for dynamic simulation and visualization display of the open-pit mine transportation process.Additionally,it integrates SimPy into the dynamic simulation framework and visualization display program for the open-pit mine transportation process.The"Blender+Python"dynamic visualization simulation scheme is proposed,and the dynamic simulation framework and visualization display scheme of the open-pit mine transportation process are in-itially constructed.Combined with the SimPy discrete event simulation library and the Dijkstra algo-rithm,this study investigates the challenges of queuing and route optimization in open pit mine transpor-tation.It achieves the dynamic simulation of the mine transportation process.The experimental results demonstrate that the method offers a novel approach to conducting visualization simulations.It features a simple development environment,is cost-effective,and efficient.This method can be applied in similar course development and scientific research activities in colleges and universities.
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