Integrating models of real aboveground scene and underground geological structures at an open pit mine

Q1 Computer Science

Virtual Reality Intelligent Hardware Pub Date : 2025-08-01 DOI:10.1016/j.vrih.2023.08.004

Biao Dong , Wenjun Tan , Weichao Chang , Baoting Li , Yanliang Guo , Quanxing Hu , Guangwei Liu

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引用次数: 0

Abstract

Background

As information technology has advanced and been popularized, open pit mining has rapidly developed toward integration and digitization. The three-dimensional reconstruction technology has been successfully applied to geological reconstruction and modeling of surface scenes in open pit mines. However, an integrated modeling method for surface and underground mine sites has not been reported.

Methods

In this study, we propose an integrated modeling method for open pit mines that fuses a real scene on the surface with an underground geological model. Based on oblique photography, a real-scene model was established on the surface. Based on the surface-stitching method proposed, the upper and lower surfaces and sides of the model were constructed in stages to construct a complete underground three-dimensional geological model, and the aboveground and underground models were registered together to build an integrated open pit mine model.

Results

The oblique photography method used reconstructed a surface model of an open pit mine using a real scene. The surface-stitching algorithm proposed was compared with the ball-pivoting and Poisson algorithms, and the integrity of the reconstructed model was markedly superior to that of the other two reconstruction methods. In addition, the surface-stitching algorithm was applied to the reconstruction of different formation models and showed good stability and reconstruction efficiency. Finally, the aboveground and underground models were accurately fitted after registration to form an integrated model.

Conclusions

The proposed method can efficiently establish an integrated open pit model. Based on the integrated model, an open pit auxiliary planning system was designed and realized. It supports the functions of mining planning and output calculation, assists users in mining planning and operation management, and improves production efficiency and management levels.

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露天矿地面真实场景与地下地质构造模型的集成

随着信息技术的进步和普及，露天采矿正迅速向集成化、数字化方向发展。三维重建技术已成功应用于露天矿地表场景的地质重建与建模。然而，地面和地下矿山场地的综合建模方法尚未见报道。方法提出了一种将地表真实场景与地下地质模型相融合的露天矿综合建模方法。在倾斜摄影的基础上，在曲面上建立了实景模型。基于所提出的曲面拼接方法，分阶段构建模型的上、下表面和侧面，构建完整的地下三维地质模型，并将地上模型和地下模型配准在一起，构建露天矿山综合模型。结果采用倾斜摄影方法，在真实场景下重建了露天矿的地表模型。将所提出的曲面拼接算法与球旋转算法和泊松算法进行了比较，重建模型的完整性明显优于其他两种重建方法。此外，将曲面拼接算法应用于不同地层模型的重建，显示出良好的稳定性和重建效率。最后，对地上模型和地下模型进行配准后的精确拟合，形成一体化模型。结论该方法能有效地建立露天矿综合模型。在此基础上，设计并实现了露天矿辅助规划系统。支持采矿规划和产量计算功能，帮助用户进行采矿规划和作业管理，提高生产效率和管理水平。

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