Abstract
This article discusses the solution of the problem of increasing the economic efficiency and quality of training of ergatic systems personnel when using training complexes by choosing the optimal parameters of the visualization system. The specificity of the task lies in the fact that in the course of its solution, the system structure is first determined, reflecting the categories of visualization equipment used, as well as the software implementation of the virtual representation at a high level of abstraction. In addition, the final solution to the problem of structural-parametric synthesis should ensure not only the maximum possible quality of information display when the conditions for economic and time costs are met, but also guarantee the necessary level of professional training. To determine the most optimal structure of the visualization system, an algorithm of structural-parametric synthesis of the visualization system has been developed, taking into account all of the above aspects of creating a training complex. Based on the proposed algorithm, a simulator visualization system for training miners based on a VR helmet and VR controllers has been developed. The training complex allows you to work out such actions as notification of the occurrence of an emergency situation, search for an escape route, as well as the use of fire extinguishing skills. After obtaining the optimal solution to the problem of synthesizing a simulator for training a miner, experimental studies were conducted to test the algorithm’s operability with a new focus group of subjects. As an alternative, a more cost-effective solution based on a monitor and a keyboard with a mouse was considered. The results of the comparison showed that the alternative solution does not provide the necessary level of competence formation in a timely manner. The proposed simulator allows you to get both the best quality of mastering and shorter terms of mastering.
Publisher
Izdatel'skii dom Spektr, LLC
Subject
General Materials Science
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