Dr. Masaya Murata Japan Aerospace Exploration Agency | Dr. Tyler Reid Xona Space Systems |
Abstracts in this session are listed alphabetically. Following peer review of the full manuscripts, each abstract will be designated as a primary or as an alternate presentation.
3D Keypoint Detectors from Scanning Mirror LIDAR Scans for Localization of Lunar Rovers: Tuan Luong and Jordan Larson, University of Alabama | |
A Maximum Likelihood Approach to Match the Priorly Mapped Lunar Landmarks: Huseyin Duran, Roketsan Inc.; Ugur Murat Leloglu, University of Turkish Aeronautical Association | |
A Modular PNT Framework Using Advanced Accelerometers for Cislunar Navigation: Rachit Bhatia, West Virginia University | |
A Sequence Matching Approach for GNSS-Based Orbit Determination Using Dynamic Time Warping: Francesco Fiorina, Oliviero Vouch, Andrea Nardin, Fabio Dovis, Politecnico di Torino; Claudia Facchinetti, and Mario Musmeci, Italian Space Agency (ASI) | |
Acquiring Weak GNSS Signals in Cislunar Space: A Review of High-Sensitivity Techniques to Support Spacecraft Navigation: Lorenzo Sciacca, Alex Minetto, Andrea Nardin, and Fabio Dovis, Dipartimento di Elettronica e Telecomunicazioni, Politecnico di Torino | |
Batch Integrity Monitoring for an Extended Kalman Filter Using the Lunar Communication and Navigation System: Heiko Engwerda, Royal Netherlands Aerospace Centre; Yoann Audet, Richard Swinden, European Space Agency; Maarten Uijt de Haag, Technical University of Berlin; Cosimo Stallo, Floor Melman, Javier Ventura-Traveset, European Space Agency | |
Design of Position, Velocity and Timing Algorithm Based on Multiple Data Sources for Mars Landing Application: Laura De Leo, Mattia Carosi and Daniele Musacchio, Thales Alenia Space Italy (TAS-I) | |
Direct Position Estimation Framework for Lunar PNT: Shuo Tang, Helena Calatrava, and Pau Closas. Electrical, and Computer Engineering Dept., Northeastern University | |
Hardware-in-the-Loop Testing of a Galileo Receiver for Improved Space Situational Awareness: The SARGASSIA Project: Francesco Menzione, Andrea Piccolo, Luca Cucchi, European Commission's Joint Research Centre (JRC); Giancarmine Fasano, Roberto Opromolla, University of Naples Federico II | |
Limits on Cooperative Radio Navigation for Lunar Surface Exploration: Emanuel Staudinger, Robert Pöhlmann, and Siwei Zhang, Institute of Communications and Navigation, German Aerospace Center (DLR e.V.) | |
Lunar-Analog Swarm Navigation Experiments in a Lave Cave on Lanzarote: Siwei Zhang, Fabio Broghammer, Armin Dammann, Emanuel Staudinger, Robert Poehlmann, Christian Gentner, Institute of Communications and Navigation, German Aerospace Center (DLR) | |
Navigation for Lunar Space Missions: Enhancing Positioning through the Integration of Cooperative Systems with the Moonlight Initiative: Anaïs Delépaut Alex Minetto Fabio Dovis, Politecnico di Torino | |
On Least Squares Convergence and Single-Point Solution Availability in Cislunar GNSS Positioning: Luca Morichi, Simone Zocca, Alex Minetto, Fabio Dovis, Department of Electronics and Telecommunications, Politecnico di Torino | |
Using Simulations to Develop Terrain Relative Navigation for Mars-UAVs: Is it Realistic Enough?: Max Hofacker, Michael Schleiss, Thomas Pany, Roger Förstner University of the Bundeswehr München, Institute of Space Technology and Space Applications - Research Center SPACE |
12:15 p.m. – 1:15 p.m. Lunch in the Exhibit Hall