This page contains a collection of publications using raPPPid for data processing and is updated regularly from time to time. If you notice anything missing, please contact rapppid@geo.tuwien.ac.at
Birinci and Saka, 2025: APAS-TR: a MATLAB-based open-source software package for multi-GNSS precise point positioning and its performance in strong ionospheric conditions
Bilgen et al., 2025: Advances in UAV Operations for Valley-Type Mapping with Different Duration Period PPP-AR Methods in GCP
Ayso and Kahveci, 2025: Impacts of relativistic effects on GNSS signal path and precise point positioning
Kiliszek, 2025: GPS and Galileo Precise Point Positioning Performance with Tropospheric Estimation Using Different Products: BRDM, RTS, HAS, and MGEX
Kamal et al., 2025: Evaluation of Smartphone-Based GNSS Positioning Using Ionosphere Free-Precise Point Positioning in Static Mode
Wu & Bian & Ji, 2025: Analysis on number of ambiguities fixed in GNSS precise point positioning ambiguity resolution
Bilgen, 2025: Optimizing PPP-AR with BDS-3 and GPS: Positioning Performance Across Diverse Geographical Regions Under Mostly Quiet Space Weather Conditions
Saber et al., 2025: Practical analysis of using PPPH and raPPPid for Precise Point Positioning in Europe
Meng et al., 2024: A high precision 3-D tropospheric delay model over China using ERA5 data
Zhang et al., 2024: Assessing the performance of GNSS PPP-AR using OSB products from different analysis centers
Wareyka-Glaner, 2023: Precise Point Positioning mit Smartphones (GERMAN)
Glaner and Weber, 2023: An open-source software package for Precise Point Positioning: raPPPid
Glaner and Weber, 2023: Breaking the One-Meter Accuracy Level with Smartphone GNSS Data
Aichinger-Rosenberger et al., 2023: Mpg-Net: A Low-Cost, Multi-Purpose Gnss Co-Location Station Network for Environmental Monitoring
Hohensinn et al., 2022: Low-Cost GNSS and Real-Time PPP: Assessing the Precision of the u-blox ZED-F9P for Kinematic Monitoring Applications
Boisits et al., 2020: Regiomontan: A Regional High Precision Ionosphere Delay Model and Its Application in Precise Point Positioning
Glaner, 2022: Towards instantaneous PPP convergence using multiple GNSS signals
Weigert, 2024: Google Decimeter Challenge: Prozessierung von kinematischen Smartphone GNSS Daten (GERMAN)