posted by user: M0X2 || 3746 views || tracked by 3 users: [display]

NAVITEC 2010 : 5th Esa Workshop on Satellite Navigation Technologies (Navitec 2010) & European Workshop on GNSS Signals and Signal Processing

FacebookTwitterLinkedInGoogle

Link: http://www.congrex.nl/10c12/
 
When Dec 8, 2010 - Dec 10, 2010
Where Noordwijk, The Netherlands
Submission Deadline TBD
Categories    signal processing   satellite   navigation
 

Call For Papers

The scope of the workshop will include navigation equipment and techniques: receivers, payloads, signals, navigation algorithms, signal processing techniques and applications of GNSS (terrestrial and space). The papers should describe new equipment developments and systems concepts, innovative technologies and designs, testing/validation procedures, linked to the topics that are listed below. Just as an indication, the topics are broken down into sub-topics.

1. RECEIVER TECHNOLOGY
• Architecture optimisation for digital implementations
• Antenna technology, adaptive arrays
• Direct sampling technologies
• Indoor positioning receivers
• Software receivers
• Performance bounds for code and carrier phase estimation
• Miniaturisation and low power consumption
• Phase noise mitigation
• Algorithms and equipment for Signal-In-Space Monitoring and Analysis
• New developments and products

2. SIGNAL DESIGN & PERFORMANCES
• Signal performance in real environment
• Advanced modulations, FEC coding, message
• Signal design for C-band, L-band
• GNSS Signal Design, Multiplexing Techniques and New GNSS Signal Standards
• GNSS Signal Verification
• GNSS Signals Evolution and Modernization
• PRN-Code Design for GNSS

3. SIGNAL PROCESSING
• Signal processing algorithms for modernised signals
• Fast acquisition techniques
• Acquisition and tracking threshold reduction
• signal processing algorithms for high sensitivity receivers
• Signal processing algorithms for multipath mitigation and detection
• Signal processing algorithms for interference mitigation and detection
• Signal processing algorithms for scintillation detection and mitigation
• AltBOC and MBOC Signal Processing
• Multi-Frequency Signal Processing
• Evil waveform detection and mitigation

4. NAVIGATION ALGORITHMS
• New positioning algorithms
• Carrier Phase Integer Ambiguity Resolution
• Carrier Phase-Based Positioning
• Three Carrier Ambiguity Resolution, widelane algorithms
• RTK, WARTK and PPP positioning
• Receiver Autonomous Integrity Monitoring (RAIM) and ARAIM
• RAIM-GIC integration
• Snapshot vs. sequential (integrity) algorithms
• Noise smoothing
• Satellite selection
• Cycle slip detection and correction
• Tropospheric and ionospheric error correction algorithms
• Post processing algorithms for multipath mitigation and detection
• Post processing algorithms for interference mitigation and detection
• Special algorithms for specific applications (space and terrestrial)
• Algorithms for timing applications

5. MULTI-GNSS TECHNOLOGY AND TECHNIQUES (GPS, GLONASS MODERNISATIONS, GALILEO, COMPASS, SBAS …)
• Technology integrating multiple GNSS systems
• Technology synergies between different GNSS systems
• Multi-GNSS navigation algorithms
• Multi-GNSS RAIM techniques
• Integrated navigation algorithms using multiple GNSS systems
• Technological issues for receiver synchronization using multiple GNSS systems

6. SENSOR FUSION
• Integration with inertial sensors (MEMS, etc)
• Integration with wireless networks (WLAN, UWB, Zigbee, etc)
• Navigation filters for sensor fusion
• Navigation Data fusion
• Pedestrian navigation
• High-dynamics applications
• Integration of satellite navigation receivers with Loran-C

7. GNSS MULTIPATH, INTERFERENCE & PROPAGATION
• Multipath mitigation based on adaptive antenna arrays
• Multipath-related performance bounds
• Specific characterisation of multipath effects on different applications
• Interference mitigation and localization based on adaptive antenna arrays
• Spectral compatibility of GNSS with other services
• Radar/GNSS, DME/GNSS, MSS/GNSS interference effects. Intentional interference
• System interference of new satellite navigation signals
• Effect and importance of interference in different applications (terrestrial and space)
• Characterization and modelling of Multipath signal propagation
• Characterization and modelling of Tropospheric and Ionospheric signal effects
• Scintillation measurements and modelling

8. SPACE RECEIVERS TECHNOLOGY & APPLICATIONS
• New technologies and techniques of interest for satellite navigation
• New hardware developments
• Receivers for nanosatellites
• Synergies between terrestrial technologies and space
• Autonomous navigation
• Hybridisation techniques
• Recent flight experiences
• Space Navigation algorithms using GNSS. On ground and on board processing
• Attitude determination
• Pseudolites ground network for space users: signal structure, experiments, user equipment prototypes
• Formation flying
• Satellite navigation at high altitude (GEO, HEO, GTO)
• Spacecraft missions providing GNSS reflections
• Precise orbit determination
• Remote Sensing using GNSS
• Radioocultation
• GNSS signal propagation investigations (ionospheric and tropospheric disturbances)
• Launchers navigation: user equipment prototypes, experiments and results

9. NAVIGATION PAYLOAD TECHNOLOGY IMPACTS
• Payload characteristics impacting navigation performance
• RF chain phase stability
• Onboard clocks critical performance
• Onboard autonomous navigation processing
• Onboard signal monitoring techniques
• Impairments on signal and clocks
• Signal generation critical performance

10. USER EQUIPMENT TECHNOLOGY FOR GNSS APPLICATIONS
• Receivers and applications using the new GNSS systems
• GNSS user equipment demonstrations. Ongoing developments and results
• Aeronautical, terrestrial, land-mobile, waterway and railway applications of satellite-based navigation
• Development of simulators and user equipment prototypes
• GNSS user experiences.

11. SCIENTIFIC APPLICATIONS
• Retrieval algorithms for altimetry, wind and waves
• Retrieval algorithms for ionospheric and troposheric profiles
• Wind speed and wind direction measurements and modelling
• Ice sheet and wet lands mapping
• Experimental results
• Models of the ocean surface at L-band
• Scientific receiver and antenna technology
• New techniques for geodesy
• Other applications

12. SYNERGIES BETWEEN SATELLITE NAVIGATION AND COMMUNICATIONS
• Integration of satellite navigation receivers with mobile communications terminals
• Location based services (LBS)
• Positioning using GNSS and mobile communication systems: receivers and algorithms
• Network-aided positioning, AGNSS (Assisted GNSS)
• Technology synergies between satellite navigation and communications
• Technological issues for timing and frequency synchronization using GNSS
• Dissemination of wide area differential information via terrestrial networks

Related Resources

IEEE ISNCC 2018   2018 IEEE International Symposium on Networks, Computers and Communications
SIGI 2017   3rd International Conference on Signal and Image Processing
EI-AIAAT 2018   2018 2nd International Conference on Artificial Intelligence Applications and Technologies (AIAAT 2018)
NMOCT 2017   3rd International Conference on Networks, Mobile Communications and Telematics (NMOCT-2017)
IEEE Trans SUSC 2019   IEEE Trans on Sustainable Computing (SI: Intersection of Computing and Communication Technologies with Energy Systems)
IJITCA 2017   International Journal of Information Technology, Control and Automation
EI CAECT 2018   2018 International Conference on Aerospace Engineering and Control Technologies(CAECT 2018)
IEIJ 2017   Informatics Engineering, an International Journal
LTA 2018   3rd International Workshop on Language Technologies and Applications
ICIST 2018   24th International Conference on Information and Software Technologies