“…In the article by Onifade, et al [5], various aspects of intel ligent mining that improve mining operations are indicated. But the question of integration of IT technologies in the mining in dustry remained outside the attention of Onifade, et al [5].…”
Section: Information Technologies Systems Analysis and Administrationmentioning
Purpose. To develop methodological approaches to the process of informatization of technological security (TS) and to propose a project of step-by-step development of the architecture of information system (IS) of TS, which will contribute to effective integration of digital and mining technologies. To develop a mathematical model for finding the number of sensors required for probabilistic assessment of the concentration gradients of hazardous gases. Methodology. General and special methods of knowledge are used: structural analysis – to establish the structure and tasks of IS of TS; logical generalization – for formation of methodological system of directions of TS information measures; system analysis – to establish synergistic effect of complex implementation of the indicated directions; scientific abstraction – for development of a project for IS architecture derivation; mathematical formalization – for development of mathematical model for estimating gradients of concentration gases and the number of sensors. Findings. A project for the phased development of IS architecture of mining facilities based on the implementation of diffusion principle is developed, which will allow solving a complex of issues: integrated monitoring of danger of gas environment of underground structure for detection of gas traps and permanent determination of concentration gradients of hazardous gases, implementation of intelligent safety loops using analytical resources of technological mining process. A methodological system of directions for diffusion implementation of TS information measures is formed. The use of the method of system analysis made it possible to point out the synergistic effect of the complex implementation of the directions of implementation of TS information measures. Originality. A project for the phased development of the information system architecture of the technological safety of mining enterprises has been developed. A mathematical model has been developed to estimate the concentration gradients of hazardous gases and the number of sensors to ensure the appropriate level of probability of finding a sensor in each cell of the underground mine. Practical value. The methodological approach makes it possible to form an IS that implements a comprehensive approach to ensuring the appropriate level of technological safety of mining facilities.
“…In the article by Onifade, et al [5], various aspects of intel ligent mining that improve mining operations are indicated. But the question of integration of IT technologies in the mining in dustry remained outside the attention of Onifade, et al [5].…”
Section: Information Technologies Systems Analysis and Administrationmentioning
Purpose. To develop methodological approaches to the process of informatization of technological security (TS) and to propose a project of step-by-step development of the architecture of information system (IS) of TS, which will contribute to effective integration of digital and mining technologies. To develop a mathematical model for finding the number of sensors required for probabilistic assessment of the concentration gradients of hazardous gases. Methodology. General and special methods of knowledge are used: structural analysis – to establish the structure and tasks of IS of TS; logical generalization – for formation of methodological system of directions of TS information measures; system analysis – to establish synergistic effect of complex implementation of the indicated directions; scientific abstraction – for development of a project for IS architecture derivation; mathematical formalization – for development of mathematical model for estimating gradients of concentration gases and the number of sensors. Findings. A project for the phased development of IS architecture of mining facilities based on the implementation of diffusion principle is developed, which will allow solving a complex of issues: integrated monitoring of danger of gas environment of underground structure for detection of gas traps and permanent determination of concentration gradients of hazardous gases, implementation of intelligent safety loops using analytical resources of technological mining process. A methodological system of directions for diffusion implementation of TS information measures is formed. The use of the method of system analysis made it possible to point out the synergistic effect of the complex implementation of the directions of implementation of TS information measures. Originality. A project for the phased development of the information system architecture of the technological safety of mining enterprises has been developed. A mathematical model has been developed to estimate the concentration gradients of hazardous gases and the number of sensors to ensure the appropriate level of probability of finding a sensor in each cell of the underground mine. Practical value. The methodological approach makes it possible to form an IS that implements a comprehensive approach to ensuring the appropriate level of technological safety of mining facilities.
“…Furthermore, the empirical gap extends to the dearth of comprehensive frameworks that encompass both technical and human dimensions of productivity enhancement within the mining sphere. Existing studies have predominantly focused on discrete operational aspects or technology-driven interventions, with limited research dedicated to holistic frameworks navigating the intricate intersection of technical and human factors in enhancing productivity (Garcia Martinez et al, 2019;Onifade et al, 2023).…”
This study addresses the redesign of a productivity award in the value chain, aiming to provide a comprehensive strategic framework for organizations dedicated to excellence. A notable challenge is identified in the absence of industry-specific models tailored to sector characteristics. In response, the ABCs of Productivity Award is introduced to catalyze sustainable continual improvement in value chains. The research utilizes methodological synthesis, incorporating a comprehensive case analysis across three structured phases. The first phase explores key success factors and conducts a methodical comparative assessment of the current productivity evaluation system against international and national models. This phase lays the foundational bedrock for enhancements in the next phase, involving different focus group deliberations. Informed by insights from the investigative phase, these sessions contribute to preliminary adjustments, forming a blueprint for transformative development. The third phase encompasses a diligent tripartite validation process, involving qualitative, quantitative, and pilot study components. The culmination reveals the scientific meticulous construction of the ABCs of Productivity Award, could be benchmarked in every single industry to create sustainable value while considering various issues that involve different stakeholders. This methodology has been applied to develop national award of Iran’ mining industry and the potential deficits are adjusted in this way and make it efficacious for benchmarking.
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