GNSS Applications in Earth and Space Observations

GNSS Applications in Earth and Space Observations

Challenges and Prospective Approaches

Singh, Abhay Kumar; Gupta, Dileep Kumar

Taylor & Francis Ltd

03/2025

408

Dura

9781032712437

Pré-lançamento - envio 15 a 20 dias após a sua edição

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Section 1: Introduction to GNSS and its Advances in Earth Observation. 1. Introduction to Navigation Satellite Systems (GNSSs) in a Global Perspective. 2. Quantitative Analysis of Variance and Optimization of Coordinate Systems and Temporal Conditions for Minimizing GPS Measurement Errors. 3. Application of GNSS in Earth System Sciences. 4. Introduction to the Measurement Techniques of GNSS Geodesy in Surveying: Enhancing Precision and Efficiency. Section 2: GNSS Applications for Disaster Management. 5. Cyclone Global Navigation Satellite System (CYGNSS): Insights to the cyclone 'Mocha' (2023) in the Bay of Bengal. 6. Lightning Locations and Thunderstorm-induced Ionospheric Perturbations: Applications of GNSS Technology. 7. Advancing Sustainability: A Comprehensive Review of Geospatial Technology in Monitoring Climate Change-driven Landslide Hazards. 8. Detection of Tsunami induced Ionospheric Disturbances using GNSS measurements. 9. Monitoring of Calbuco Volcanic Eruption using GNSS-derived TEC Perturbation. 10. Quantifying Mineral Abundance and Erosion Using Remote Sensing and Global Navigation Satellite System (GNSS) Technology. 11. Forest Fire Risk (FFR) Mapping using Analytical Hierarchy Process (AHP) and Geospatial Technique and Advantage of GNNS to Monitor the Forest Fire: A Case Study in the Southern Districts of Uttarakhand. Section 3: GNSS Applications for Climate Studies. 12. Monitoring of Sea Level Variations using GNSS Technology. 13. Monitoring Climate Impacts on Himalayan Glacier Dynamics Using GNSS Radio Occultation. 14. Global Navigation Satellite Systems (GNSS) and their Applications in Climate Monitoring and Modelling. 15. Real-time Computation of Precipitable Water Vapor from GPS Data. 16. Water Vapour Retrieval and its Climatic Implications using GNSS Signals. 17. GNSS Enabled Precision Agriculture. Section 4: GNSS Applications for Space Weather. 18. Role of GNSS-derived TEC for Space Weather Studies. 19. Characteristic of Ionospheric Irregularities Using GNSS Measurements over Indian EIA region Varanasi. 20. GNSS as a Cost-Effective Tool for Continuous Monitoring of Solar Flare effect on the Ionosphere. 21. Geomagnetic Storms and their Effect on Global Positioning System: A Supplication of Global Navigation Satellite System Receivers. 22. GPS TEC Response during the Solar Flare. 23. A Brief Review of Low Latitude Ionosphere: With Multi-Frequency Observation using GPS, NavIC and GMRT. Section 5: Challenges and Future Prospects. 24. Challenges and Future Developments in GNSS Technology in Disaster Management. 25. Limitation, Improvement and Future Aspects of GNSS in Climate Studies. 26. Advancements and Limitations of GNSS in Ionospheric Research. 27. Enhancing GNSS Applications in Climate Studies: A Path Forward.
GNSS-Remote Sensing;Volcanic Activity Monitoring;Disaster Response;GPS;Precision Timing;Sea Level Rise;Glacier Dynamics;Weather Forecasting and Modelling;Space Weather;Ionospheric Variability