Yearly Workplans
2024
2023
- 085 - Navigation technologies for Shield nanosatellite
- 084 - Digital Beamforming for GNSS-R Radio occultation payload
- 083 - Deployable satellite navigation antenna
- 082 - Low noise frequency tunable microwave generation using photonic integrated microcombs
- 080 - Miniaturised GNSS/LowRF receiver
- 079 - Reduced size Antenna for Earth Pulsar navigation
- 078 - Autonomous Alternative Absolute Navigation (AAAN) technologies for maritime
- 077 - Technological Enablers of Cellular Networks for PVT Assurance
- 076 - Low SWAP optical clock control unit
- 075 - Bearer Independent Secure Time Transfer
- 074 - Assessment of authentication and encryption techniques on high-performance time-transfer over optical fibre
- 073 - Trusted PNT for Unmanned Aerial Systems
- 072 - Navigation Using Machine Learning Applied to Signals of Opportunity
2021
- 059 - Application of photonics technology for PNT user equipment
- 053 - Real-Time Big Data Processing for GNSS Integrity - MAGIE
2020
- 051 - New Concept for Evolutive Mitigation of RFI to GNSS
- 050 - Proof of concept of hybrid 5G-NR/GNSS Positioning with ad-hoc overlay
- 049 - Cooperative Positioning and Integrity Concept in Vehicle Platooning
- 047 - An Innovative concept for the Risk Assessment of Geologic Hazards using GNSS and Solid Earth Tides Modelling
- 046 - Combining ELF signals with GNSS for improved PNT
- 045 - Multi-layer PNT for SAR
- 044 - Hollow Corner Cube Retro-Reflectors In-Orbit PNT
- 043 - INTERFERENCE MONITORING FROM SPACE
- 042 - Next generation motion sensors for hybrid GNSS INS solutions in high accuracy machine control applications
- 041 - Quantum Metrology for secure PNT
- 040 - Next Generation network-assisted PNT assurance
- 039 - Earth Moon GNSS Spaceborne Receiver for In-Orbit-Demonstration
- 038 bis - Application of Machine Learning Technology for GNSS IOT Data Fusion
- 038 - Application of Machine Learning Technology for GNSS IOT Data Fusion
2019
- 037 - PNT Timing & Synchronisation for Aviation Systems and Networks
- 036 bis - Precise positioning for mass-market: optimal data dissemination demonstrator
- 036 - Precise positioning for mass-market: optimal data dissemination demonstrator
- 035 ter - Machine Learning Techniques to model GNSS
- 035 bis - Machine Learning Techniques to model GNSS
- 035 - Machine-Learning Techniques to model GNSS systems
- 034 - AI-enabled baseband algorithms for high-fidelity measurements
- 032 bis - Advanced concept for chip-scale atomic clocks
- 032 - Advanced concept for chip-scale atomic clocks
- 031 - Precise Timing for Indoor Small Cells
- 030 - Advanced Multi-Frequency low-cost high-gain GNSS antennas for next generation of mass-market devices
- 029 - Collaborative Processing of Distributed Receivers of Opportunity for Jamming and Spoofing Mitigation
- 027 - Alternative Space-based PNT data layer
2018 Addendum
- 026 - Enabling Ultra-High Accuracy Positioning in Challenging Environment
- 025 - Multi-Sensor, Multi-System for Space PNT Applications
- 024 - Precise Relative Positioning in MEO to support Science Missions
- 023 bis - Earth-Moon Navigation: System Study and development of a high-sensitive spaceborne receiver
- 023 - Earth-Moon Navigation / System Study and Development of a Highly-Sensitive Spaceborne Receiver Prototype
2018
- 022 - Low-cost multi-frequency multi-constellation GNSS antenna for CubeSats
- 021 - Integrity Monitoring and Prediction Concept for Autonomous Car Resilience and Safety
- 020 bis - Artificial Intelligence/Machine Learning Sensor Fusion for Autonomous Vessel Navigation
- 020 - Artificial Intelligence / Machine Learning Sensor Fusion for autonomous Vessel Navigation
- 019 bis - Ultra-Low Power Device Positioning Concepts
- 019 - Ultra-Low Power Device Positioning Concepts
- 018 - Low-RF Fast Deployable Systems for Emergencies in Difficult Environments
- 017 - Techniques supporting Resilience for High Integrity Train Control Applications
- 016 - GNSS/non-GNSS Sensor Fusion for Resilience in High Integrity Aviation Applications
- 014 - PNT using Neutrino Particles
- 013 bis - Quantum-based sensing for PNT
- 013 - Quantum-based sensing for PNT
- 012 - High-Altitude Pseudo-Satellites for PNT
- 011 bis - Resilient, Trustworthy, Ubiquitous Time Transfer
- 011 - Resilient, Trustworthy, Ubiquitous Time Transfer
2017
- 010 - Low-Cost GNSS Antenna Arrays for Improved Performance, Anti-Spoofing and Meaconing and Interference Mitigation
- 008 - Weather Monitoring Based on Collaborative Crowdsourcing
- 007 - Cooperative Navigation and Cloud Processing
- 006 - Pulsar Timescale Demonstration
- 005 - Multipath & Interference Error Mitigation Techniques for Future Maritime e-NAV Services
- 004 - Multi-System Multi-Sensor Maritime PNT Test Platform
- 003 - System Suitability Study for Train Positioning Using GNSS in ERTMS in 2020 (STEMS)
- 002 - Trusted Radionavigation via Two-Way Ranging
- 001 bis - Complementary PNT Infrastructure in LEO
- 001 - Complementary PNT Infrastructure in LEO