Transformation Parameters Derivation Between Global, National and Mine Grid Reference Systems
Abstract
In mining operations, coordinate transformation plays a key role in transforming coordinates acquired in the Global Navigation Satellite System (GNSS) into the national and local mine grid systems. It has often been known that most mining sites have transformation parameters determined using only a few common points or the minimum co-located points. However, these determined parameters only fit within a limited extent of the mine concession. Hence, allowing for extrapolation and incorrect transformation results when the existing transformation parameters are utilised beyond the existing co-located points. As the mine expands beyond it operationalised zones, there is the need to redefine a new set of transformation parameters that are devoid of extrapolation and apply to a wider coverage of the mine concession. This study applied, evaluated, and compared the Two-dimensional (2D) conformal similarity model and 2D affine model to facilitate the transformation of the Local Mine Grid (LMG) coordinate to the Ghana National Projected Grid (GNG), Universal Transverse Mercator (UTM), and vice versa. To guarantee the consistency of the transformation results between the models tested on all the grid systems, this study utilised the Horizontal Positional Error (HPE), Standard Deviation HPE (SDHPE), Root Mean Square Error HPE (RMSEHPE), and maximum and minimum HPE.
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Copyright (c) 2024 Yakubu Issaka, Yao Yevenyo Ziggah
This work is licensed under a Creative Commons Attribution 4.0 International License.
Copyright © 2021 University of Mines and Technology (UMaT), Tarkwa. Ghana