Research using GNSS (Global Navigation Satellite System) products - a comprehensive literature review

Global Navigation Satellite System (GNSS) products, including satellite orbit and clock corrections, ionospheric and tropospheric delay models, and multi-frequency data, are fundamental to modern geodesy and numerous scientific and industrial applications. The exploitation of these products facilitates the achievement of precise positioning, navigation, and timing (PNT) across a diverse range of fields, including transportation, geodesy, agriculture, and disaster management. Nevertheless, numerous challenges remain, including signal degradation due to multipath effects, atmospheric interference, and vulnerabilities to jamming and spoofing. Recent developments seek to address these limitations and enhance the utility of GNSS products. International collaboration, spearheaded by organizations such as the International GNSS Service (IGS), is crucial for standardizing and distributing GNSS products, facilitating global accessibility and addressing challenges such as climate monitoring and disaster resilience. This review emphasizes the indispensable role of GNSS products in advancing science and industry, highlights persistent challenges, and explores innovative solutions that promise to enhance their accuracy, resilience, and accessibility for addressing global needs.