GNSS Seismogeodesy
◆日本地質学会 第131年学術大会 特別割引セール開催中!:2024年10月18日(金)ご注文分まで
※上記表示の販売価格は割引適用後の価格です 出版済み 3-5週間でお届けいたします。 Author: Geng, Jianghui (Professor in GNSS Geodesy, Wuhan University, China) Publisher: Elsevier USA ISBN: 9780128164860 Cover: PAPERBACK Date: 2022年05月 DESCRIPTION GNSS Seismogeodesy: Theory and Applications combines GNSS and seismology theory and applications to offer both disciplines the background information needed to combine forces. It explores the opportunities for integrating GNSS and seismometers, as well as applications for earthquake and tsunami early warning applications. The book allows seismologists to better understand how GNSS positions are computed and how they can be combined with seismic data and allows geodesists to better understand how to apply GNSS to monitoring of crustal motion.This book is a valuable reference for researchers and students studying the interdisciplinary connection between GNSS geodesy and strong-motion seismology. It will also be ideal for anyone working on new approaches for monitoring and predicting geologic hazards. TABLE OF CONTENTS 1: Introduction Abstract 1.1. Precise GNSS positioning 1.2. Precise point positioning (PPP) 1.3. High-rate GNSS 1.4. GNSS/Seismometer integration 1.5. The objective of this book References 2: PPP ambiguity resolution Abstract 2.1. Introduction 2.2. Fundamentals of PPP 2.3. Ambiguity resolution at a single station 2.4. All-frequency PPP-AR 2.5. Inter-frequency phase biases 2.6. Combination of phase clock/bias products 2.7. Summary and outlook References 3: Rapid PPP convergences in real time Abstract 3.1. Introduction 3.2. Representative efforts for rapid PPP convergences 3.3. Rapid re-convergences 3.4. PPP-RTK by ionosphere augmentation 3.5. Multi-constellation and multi-frequency GNSS integration 3.6. Summary and outlook References 4: High-rate GNSS and integration with seismometers Abstract 4.1. Introduction 4.2. Noise analysis for high-rate GNSS 4.3. Slow crustal motion monitoring: storm surge loading 4.4. Integration of high-rate GNSS with seismic sensors 4.5. Summary and outlook References 5: Android GNSS seismogeodesy Abstract 5.1. Introduction 5.2. Android GNSS observation noise 5.3. Android high-precision GNSS 5.4. Android GNSS seismogeodesy 5.5. Summary and outlook References 6: Open software platforms for GNSS seismogeodesy Abstract 6.1. Introduction 6.2. PRIDE PPP-AR: postprocessing for high-rate seismogeodesy 6.3. Seismogeodesy for very early postseismic studies 6.4. GSeisRT: real-time PPP/accelerometer combination for seismogeodesy 6.5. SMAG2000: an in-situ real-time seismogeodetic instrument 6.6. Rapid earthquake response based on real-time positioning 6.7. Summary and outlook References
|