The International Conference on Localization and GNSS (ICL-GNSS) 2019 will take place in Nuremberg, Germany on June 4-6, 2019 and will feature a session on “Errors Mitigation for GNSS High Accuracy Positioning,” among other timely topics.
The paper submission deadline to the ICL-GNSS February 28.
This year the organizers have three special sessions, in addition to the regular topics on GNSS, non-GNSS positioning and Location Based Services:
• 5G Positioning
• Errors Mitigation for GNSS High Accuracy Positioning
• Industrial Internet-of-Things (IIoT)
The keynote speakers include Prof. Bernd Eissfeller, University of the Armed Forces Munich, Germany; Dr. Jörg Hahn, Head of Galileo System Procurement Service, ESA ESTEC, the Netherlands; and Prof. Gonzalo Seco-Granados, Universitat Autònoma de Barcelona (UAB), Spain.
More details about the conference can be found here: http://www.icl-gnss.org/2019/index.html
The ICL-GNSS General Chairs are Jari Nurmi, TUT, Finland, and Albert Heuberger, Fraunhofer IIS, Germany.
Reliable navigation and positioning are becoming essential in applications for IoT in industry and logistic applications, in smart city environments, for safety-critical purposes, in public services and consumer products to guarantee transparent, efficient and reliable workflows. A robust localization solution, which will be available continuously is needed regardless outdoor and indoor, and on different platforms. ICL-GNSS addresses the latest research on wireless and satellite-based positioning techniques to provide reliable and accurate position information with low latency. The emphasis is on the design of mass-market navigation receivers and related tools and methodologies.
– Antennas and RF front-end for GNSS receivers
– Design, prototyping and testing of positioning devices
– Acquisition, tracking and navigation algorithms
– Detection and mitigation techniques for adverse propagation conditions
– Wireless and sensor-based localization
– GNSS applications for remote sensing, ionospheric sounding and space weather
– Precise timing for GNSS and terrestrial systems
– Security and privacy in joint communication and navigation systems
– Authentication and privacy aspects of positioning
– Spoofing countermeasures
– Cooperative and peer-to-peer positioning
– Positioning based on signals-of-opportunity
– Multi-GNSS receivers and emerging navigation satellite systems
– Indoor positioning and localization in densely populated urban areas
– Hybrid NAV/COM positioning
– Cognitive positioning architectures
– Positioning for autonomous systems (robots, planes, land and marine vehicles)