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Reflecting the broad spectrum of Professor Teunissen's research, this Anniversary Volume presents insights into geodetic science, including estimation theory, GNSS observation modelling, Low-Earth-Orbit (LEO) satellites, and InSAR deformation analysis.
The book s chapters serve as informative resources for scientists, engineers, and students in navigation, geodesy, and geospatial engineering. Each chapter is self-contained, allowing standalone reading. Chapter 1 overviews Teunissen's work in mathematical geodesy, while Chapter 2 covers subsidence monitoring in the Netherlands since the 1960s. Chapter 3 is devoted to the new terrestrial positioning system of SuperGPS, while Chapters 4 8 discuss advancements in navigation satellite systems. Chapters 9 10 explores the role of emerging LEO satellites in positioning. Inspired by Teunissen's contributions to parameter estimation and testing theory, Chapters 11-16 discuss various estimation methods for models with integer and real unknowns. The book concludes with Chapter 17, concerning the important topic of physical geodesy.
List of contents
The Delft School of Mathematical Geodesy - A brief review of the contributions by Prof. Peter J.G. Teunissen.- Geodetic deformation analysis in the Netherlands: past, present and future.- Parameter estimation in terrestrial networked positioning and timing.- GNSS Performance Assessment: Comparison between the Performance of Galileo, GPS, GLONASS, and BeiDou.- The Variance Matrix of GNSS Single Point Positioning In Closed
Form Revisited.- Array-aided Multivariate Model for Long-range RTK.- Temporal Modelling of GNSS Receiver Code Biases in High-precision Positioning and Timing.- How weight matrix misspecifications drive PPP-RTK user performances.- LEO satellite SISRE in near-real-time.- Ambiguity-resolved kinematic performance in low Earth orbit (LEO) systems for positioning, navigation, and timing (PNT).- etc...
About the author
Amir Khodabandeh received his Ph.D. degree (with distinction) in geodesy and Global Navigation Satellite Systems (GNSS) from Curtin University of Technology, Perth, Australia. He is currently a Senior Lecturer at the Faculty of Engineering and Information Technology, University of Melbourne, Melbourne, Australia, and an Alexander von Humboldt Research Fellow. He is the Vice-President of the Inter-Commission Committee on Theory (ICCT) of the International Association of Geodesy (IAG), and Associate Editor of four premier journals: ‘GPS Solutions’, ‘Journal of Geodesy’, ‘Journal of Spatial Science’, and ‘Measurement Science and Technology’. His current research interests include estimation theory, satellite navigation, interferometric positioning, GNSS observation modelling, and GNSS quality control.
Sandra Verhagen obtained her PhD in geodesy and is now an Associate Professor at the department of Geoscience and Remote Sensing of Delft University of Technology, Delft, The Netherlands. She is an established researcher in the field of very precise and reliable positioning with Global Navigation Satellite Systems with a focus on carrier phase ambiguity resolution and quality control for applications in geoscience and geodesy. She is an active member and has held several board positions in the International Association of Geodesy, Netherlands Institute of Navigation, the Institute of Navigation (ION, USA), Netherlands Centre of Geo-information and Geodesy, Journal of GPS Solutions, and Journal of Geodesy. Currently she is the Director of Studies of the Earth, Climate and Technology (previously known as: Applied Earth Sciences) bachelor and master program. She has been teaching bachelor and master courses and coordinating fieldwork and co-developed the successful open online course (EdX) Observation Theory: Estimating the Unknown.
Summary
Reflecting the broad spectrum of Professor Teunissen's research, this Anniversary Volume presents insights into geodetic science, including estimation theory, GNSS observation modelling, Low-Earth-Orbit (LEO) satellites, and InSAR deformation analysis.
The book’s chapters serve as informative resources for scientists, engineers, and students in navigation, geodesy, and geospatial engineering. Each chapter is self-contained, allowing standalone reading. Chapter 1 overviews Teunissen's work in mathematical geodesy, while Chapter 2 covers subsidence monitoring in the Netherlands since the 1960s. Chapter 3 is devoted to the new terrestrial positioning system of SuperGPS, while Chapters 4–8 discuss advancements in navigation satellite systems. Chapters 9–10 explores the role of emerging LEO satellites in positioning. Inspired by Teunissen's contributions to parameter estimation and testing theory, Chapters 11-16 discuss various estimation methods for models with integer and real unknowns. The book concludes with Chapter 17, concerning the important topic of physical geodesy.
