FEASIBILITY OF USING GROUP METHOD OF DATA HANDLING (GMDH) APPROACH FOR HORIZONTAL COORDINATE TRANSFORMATION

Machine learning algorithms have emerged as a new paradigm shift in geoscience computations and applications. The present study aims to assess the suitability of Group Method of Data Handling (GMDH) in coordinate transformation. The data used for the coordinate transformation constitute the Ghana na...

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Published inGeodesy and cartography (Vilnius) Vol. 46; no. 2; pp. 55 - 66
Main Authors Kumi-Boateng, Bernard, Ziggah, Yao Yevenyo
Format Journal Article
LanguageEnglish
Published Vilnius Vilnius Gediminas Technical University 09.07.2020
Subjects
Algorithms
Artificial neural networks
Back propagation
Back propagation networks
coordinate transformation
Coordinate transformations
Data
Datum (elevation)
Feasibility studies
geodetic datum
geodetic reference system
Group method of data handling
Handling
Machine learning
Neural networks
Radial basis function
Software
Transformations (mathematics)
Triangulation
Two dimensional models
Ghana
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Summary:Machine learning algorithms have emerged as a new paradigm shift in geoscience computations and applications. The present study aims to assess the suitability of Group Method of Data Handling (GMDH) in coordinate transformation. The data used for the coordinate transformation constitute the Ghana national triangulation network which is based on the two-horizontal geodetic datums (Accra 1929 and Leigon 1977) utilised for geospatial applications in Ghana. The GMDH result was compared with other standard methods such as Backpropagation Neural Network (BPNN), Radial Basis Function Neural Network (RBFNN), 2D conformal, and 2D affine. It was observed that the proposed GMDH approach is very efficient in transforming coordinates from the Leigon 1977 datum to the official mapping datum of Ghana, i.e. Accra 1929 datum. It was also found that GMDH could produce comparable and satisfactory results just like the widely used BPNN and RBFNN. However, the classical transformation methods (2D affine and 2D conformal) performed poorly when compared with the machine learning models (GMDH, BPNN and RBFNN). The computational strength of the machine learning models’ is attributed to its self-adaptive capability to detect patterns in data set without considering the existence of functional relationships between the input and output variables. To this end, the proposed GMDH model could be used as a supplementary computational tool to the existing transformation procedures used in the Ghana geodetic reference network.
ISSN:2029-6991
2029-7009
DOI:10.3846/gac.2020.10486