METHODS OF INCREASING THE ACCURACY OF GEODETIC MEASUREMENTS USING SATELLITE DATA

T. T. Salaydinov; A.Y.Rasulov

METHODS OF INCREASING THE ACCURACY OF GEODETIC MEASUREMENTS USING SATELLITE DATA

Authors

T. T. Salaydinov Fergana Polytechnic Institute, Fergana, Uzbekistan
A.Y.Rasulov Fergana Polytechnic Institute, Fergana, Uzbekistan

Keywords:

Satellite data, geodetic measurements, GNSS, atmospheric corrections, positioning accuracy, machine learning, real-time kinematic (RTK), sustainable development, geospatial technologies.

Abstract

This study explores methods to enhance the accuracy of geodetic measurements through the integration of satellite data, focusing on GNSS systems, atmospheric error correction models, and machine learning applications. Results demonstrate that multi-constellation GNSS systems (e.g., Galileo, BeiDou) and advanced tropospheric and ionospheric corrections significantly improve horizontal and vertical positioning accuracy. Real-time data augmentation, scalability, and AI-driven error predictions were found to further enhance measurement precision. These findings have broad applications in environmental monitoring, urban planning, and infrastructure development, offering a pathway toward more precise and cost-effective geospatial solutions

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Published

2024-11-20

How to Cite

T. T. Salaydinov, & A.Y.Rasulov. (2024). METHODS OF INCREASING THE ACCURACY OF GEODETIC MEASUREMENTS USING SATELLITE DATA. Web of Technology: Multidimensional Research Journal, 2(11), 159–165. Retrieved from https://webofjournals.com/index.php/4/article/view/2213