Remote-controlled robotic complex for underground mining

Tauger, V. M.; Валиев, Н. Г.; Volkov, E.V.; Simisinov, D. I.; Adas, Vitalii

doi:10.1051/e3sconf/202017703006

E3S Web Conf.

2020

DOI: 10.1051/e3sconf/202017703006

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Remote-controlled robotic complex for underground mining

V. M. Tauger

Н. Г. Валиев

E.V. Volkov

et al.

Abstract: As the global rich mineral deposits are becoming depleted, the deposit development is performed with a deeper bedding and in much more difficult mining and geological conditions. This circumstance determines both the increase in the labor intensity and development costs, and the increased likelihood of emergencies. In recent years, the accidents have become more frequent at the Russian mining enterprises, aggravated not only by the significant damages, but also by the casualties. The ongoing efforts to… Show more

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2024

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Intelligent Prediction of Ore Block Shapes Based on Novel View Synthesis Technology

Bi,

Bai,

Chen

2024

Applied Sciences

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To address the problem of incomplete perception of limited viewpoints of ore blocks in future remote and intelligent shoveling-dominated mining scenarios, a method of using new view generation technology to predict ore blocks with limited view based on a latent diffusion model is proposed. Initially, an ore block image-pose dataset is created. Then, based on prior knowledge, the latent diffusion model undergoes transfer learning to develop an intelligent ore block shape prediction model (IOBSPM) for rock blocks. During training, structural similarity loss is innovatively introduced to constrain the prediction results and solve the issue of discontinuity in generated images. Finally, neural surface reconstruction is performed using the generated multi-view images of rock blocks to obtain a 3D model. Experimental results show that the prediction model, trained on the rock block dataset, produces better morphological and detail generation compared to the original model, with single-view generation time within 5 s. The average PSNR, SSIM, and LPIPS values reach 23.02 dB, 0.754, and 0.268, respectively. The generated views also demonstrate good performance in 3D reconstruction, highlighting significant implications for future research on remote and autonomous shoveling.

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Intelligent Prediction of Ore Block Shapes Based on Novel View Synthesis Technology

Bi,

Bai,

Chen

2024

Applied Sciences

View full text Add to dashboard Cite

show abstract

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Remote-controlled robotic complex for underground mining

Cited by 1 publication

References 3 publications

Intelligent Prediction of Ore Block Shapes Based on Novel View Synthesis Technology

Intelligent Prediction of Ore Block Shapes Based on Novel View Synthesis Technology

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