Enhancing 3D Rock Localization in Mining Environments Using Bird’s-Eye View Images from the Time-of-Flight Blaze 101 Camera

Kern, John; Rodriguez-Guillen, Reinier; Urrea, Claudio; Garcia-Garcia, Yainet

doi:10.3390/technologies12090162

Technologies

2024

DOI: 10.3390/technologies12090162

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Enhancing 3D Rock Localization in Mining Environments Using Bird’s-Eye View Images from the Time-of-Flight Blaze 101 Camera

John Kern,

Reinier Rodriguez-Guillen,

Claudio Urrea

et al.

Abstract: The mining industry faces significant challenges in production costs, environmental protection, and worker safety, necessitating the development of autonomous systems. This study presents the design and implementation of a robust rock centroid localization system for mining robotic applications, particularly rock-breaking hammers. The system comprises three phases: assembly, data acquisition, and data processing. Environmental sensing was accomplished using a Basler Blaze 101 three-dimensional (3D) Time-of-Fli… Show more

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2025

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Multimodal Data Fusion System for Accurate Identification of Impact Points on Rocks in Mining Comminution Tasks

Kern,

Quintero Bernal,

Urrea

2025

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This study presents a multimodal data fusion system to identify and impact rocks in mining comminution tasks, specifically during the crushing stage. The system integrates information from various sensory modalities to enhance data accuracy, even under challenging environmental conditions such as dust and lighting variations. For the strategy selected in this study, 15 rock characteristics are extracted at neighborhood radii of 5 mm, 10 mm, 15 mm, 20 mm, and 25 mm to determine the suitable impact points. Through processes like the Ball−Pivoting Algorithm (BPA) and Poisson Surface Reconstruction techniques, the study achieves a detailed reconstruction of filtered points based on the selected characteristics. Unlike related studies focused on controlled conditions or limited analysis of specific rock shapes, this study examines all rock faces, ensuring the more accurate identification of impact points under adverse conditions. Results show that rock faces with the largest support areas are most suitable for receiving impacts, enhancing the efficiency and stability of the crushing process. This approach addresses the limitations of manual operations and provides a pathway for reducing operational costs and energy consumption. Furthermore, it establishes a robust foundation for future research to develop fully autonomous systems capable of maintaining reliable performance in extreme mining environments.

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Multimodal Data Fusion System for Accurate Identification of Impact Points on Rocks in Mining Comminution Tasks

Kern,

Quintero Bernal,

Urrea

2025

Processes

View full text Add to dashboard Cite

show abstract

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Enhancing 3D Rock Localization in Mining Environments Using Bird’s-Eye View Images from the Time-of-Flight Blaze 101 Camera

Cited by 1 publication

References 35 publications

Multimodal Data Fusion System for Accurate Identification of Impact Points on Rocks in Mining Comminution Tasks

Multimodal Data Fusion System for Accurate Identification of Impact Points on Rocks in Mining Comminution Tasks

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