Özet:

The difference between the episoidal height and the ortometric height is called the geoid height. Orthometric height is determined by height measurements from geoid to the direction of the drag. On the other hand, the elipsoid height, size and shape (such as WGS84) are measured from the normal elipsoid and determined by satellite techniques such as GPS, GLONASS. Thanks to advances in the field of satellite techniques and measurements, the elipsoidal height can be determined cheaper and easier than the ortometric height. Therefore, it is very important to determine the geoid height, which is the conversion parameter between these two height systems. If the geoid height for a region can be precisely determined, the ortometric heights can be easily and precisely obtained from the elipsoid heights. Therefore, this conversion enables both money and time to be saved in obtaining ortometric heights. Flexible calculation methods such as artificial nerve networks and foolish logic used in solving other engineering problems have also started to be used in solving geodetic problems. In this study, the foolish logic method has explained the creation of the geoid account. As an application, the geoid height is calculated according to the ANFIS (Sugeno Fuzzy model) using data obtained at 200 points in Istanbul. Furthermore, 200 different foolish models were obtained by removing each point from the foolish model in order to investigate the impact of each point's foolish model. Keywords: Geoid height, Bully Logic, ANFIS, Matlab.

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