Abstract

A fully mechanized coalface is a rugged environment that has poor visibility. The traditional video monitoring system has problems such as a lack of realism, a blurry monitoring effect, and poor reliability. It is an important task to monitor the operations of the three-machine equipment (we will refer to the shearer, hydraulic support, and scraper conveyor as the three-machine equipment) intuitively, accurately, and timely and ensure that it is operating safely. This study proposed a cross-platform Web3D monitoring system for the three-machine equipment. First, the virtual mesh model and skeleton model that was embedded in the mesh model were established according to three-machine ontology and basic motion units. Second, the kinematic model of the three-machine skeleton was established via the inverse kinematic modeling of the hydraulic support and the coordinate calculation of the vertices on the three-machine skeleton. Third, the motion data, which were captured by sensors, were applied to drive the movement of the three-machine skeleton and mesh model. Finally, WebGL, which is the latest Internet graphics standard, was used to render the three-machine models, and the performance of this monitoring system is tested on different equipment in the laboratory. The results of the test show that the three-machine cross-platform monitoring system has splendid performance, and it realizes cross-platform 3D monitoring effectively in the laboratory. In the future, this system will be used as a supervisory tool and be integrated with the traditional monitoring system to monitor the three-machine equipment with the field staff.

Highlights

  • Mining coal is one of the most important fundamental industries, which plays a crucial role in the development of the national economy

  • In view of the advantages of virtual reality and Internet technology, this research has developed a lightweight Web3D system, namely, a cross-platform Web3D monitoring system of the three-machine equipment based on multisensor data

  • Based on the above analysis, this paper will establish a Web3D monitoring system that can solve the problem of cross-platform remotely monitoring the threemachine equipment as a foundation that complements the traditional monitoring system in the fully mechanized coalface

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Summary

Introduction

Mining coal is one of the most important fundamental industries, which plays a crucial role in the development of the national economy. In view of the advantages of virtual reality and Internet technology, this research has developed a lightweight Web3D system, namely, a cross-platform Web3D monitoring system of the three-machine equipment based on multisensor data. Based on the above analysis, this paper will establish a Web3D monitoring system that can solve the problem of cross-platform remotely monitoring the threemachine equipment as a foundation that complements the traditional monitoring system in the fully mechanized coalface. This advancement will help miners quickly make decision in the remote control center and increase production.

Architecture Overview
Key Technologies
Implementation and Demonstration
Number the model by ID
Performance Test
Conclusions

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