This paper presents a comprehensive study and comparative analysis of mapping functions utilized in calculating tropospheric zenith correction, a crucial aspect of deep space navigation, satellite positioning systems, and spacecraft tracking. Various mapping functions are evaluated across diverse atmospheric conditions to assess their precision and effectiveness. The understanding of various mapping functions aims to contribute to advancements in deep space navigation and satellite positioning accuracy by providing insights into the reliability and applicability of these mapping functions.

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A Comprehensive Study of Mapping Functions for Calculating Tropospheric Zenith Correction

  • Akshita Gaba

摘要

This paper presents a comprehensive study and comparative analysis of mapping functions utilized in calculating tropospheric zenith correction, a crucial aspect of deep space navigation, satellite positioning systems, and spacecraft tracking. Various mapping functions are evaluated across diverse atmospheric conditions to assess their precision and effectiveness. The understanding of various mapping functions aims to contribute to advancements in deep space navigation and satellite positioning accuracy by providing insights into the reliability and applicability of these mapping functions.