Modelling local GPS/levelling geoid undulations using artificial neural networks |
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| Authors: | T Kavzoglu M H Saka |
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| Institution: | (1) Department of Geodetic and Photogrammetric Engineering, Gebze Institute of Technology, Muallimkoy Campus, P.K. 141, 41400 Gebze-Kocaeli, Turkey |
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| Abstract: | The use of GPS for establishing height control in an area where levelling data are available can involve the so-called GPS/levelling technique. Modelling of the GPS/levelling geoid undulations has usually been carried out using polynomial surface fitting, least-squares collocation (LSC) and finite-element methods. Artificial neural networks (ANNs) have recently been used for many investigations, and proven to be effective in solving complex problems represented by noisy and missing data. In this study, a feed-forward ANN structure, learning the characteristics of the training data through the back-propagation algorithm, is employed to model the local GPS/levelling geoid surface. The GPS/levelling geoid undulations for Istanbul, Turkey, were estimated from GPS and precise levelling measurements obtained during a field study in the period 1998–99. The results are compared to those produced by two well-known conventional methods, namely polynomial fitting and LSC, in terms of root mean square error (RMSE) that ranged from 3.97 to 5.73 cm. The results show that ANNs can produce results that are comparable to polynomial fitting and LSC. The main advantage of the ANN-based surfaces seems to be the low deviations from the GPS/levelling data surface, which is particularly important for distorted levelling networks. |
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| Keywords: | GPS/levelling Polynomial fitting Least-squares collocation Artificial neural networks |
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