Ground-to-air communications for civil aviation
Ground-to-air communications for civil aviation are developing very rapidly with the introduction of data links and the implementation of digital services. In particular, air traffic control procedures will increasingly integrate data exchanges, either in automatic form (Automatic Dependent Surveillance or ADS-B/C, for example) or interactively (controller-pilot data link communication or CPDLC).
The aim of the course is to understand the characteristics of the systems currently being deployed or in the finalization phase with regard to standards and specifications. The characteristics of the radio channel in the context of aeronautical communications is analyzed. The issue of digital communications (modulations, coding, receiver architecture) will then be examined, including the use of software radio for the capture and analysis of real signals over the entire HF-VHF-UHF frequency range. The performance of access methods will also be looked at using discrete event simulation models.
The course lasts 4 days (24 hours).
The course aims to provide an understanding of the constraints of digital communications systems for civil aviation and enables an analysis of deployment scenarios. The lectures are accompanied by experiments with software radio resources (reception of real signals and analysis via Gnuradio) or practical work (OMNET++ simulation models).
Course level : Advanced
Basic knowledge of signal processing and digital communications is required to fully benefit from the course.
Lecturer-Researcher at ISAE-SUPAERO*
Head of the 3rd-year option of the SUPAERO engineering cycle "Computer Science, Telecommunications and Networks".
Head of the Specialized Masters in Telecommunications and Networks for Aeronautics and Space.
Ground-to-air communication means for civil aviation
- History of ground-to-air data links for civil aviation and deployment scenarios
- The ATN context
- New data links: VDL Mode 2, HFDL, LDACS, Aeromacs, Satcom
Digital communications in the aeronautical context
- Characteristics of the propagation channel, modeling according to frequency bands
- Summary of digital communications, receiver architecture and implementation of processes
- Practical applications on a software radio platform (use of the RALF platform: reception antennas deployed at ISAE-SUPAERO, National Instruments signal scanning boxes, workstations for Gnuradio software processing)
Access techniques and performance of data networks
- Random access analysis, application to the VHF VDL Mode 2 data link
- Access techniques for satellite links, description of the AMSS system and analysis of the definition of the IRIS system
- LDACS and HFDL data link architecture
- Implementation by network-oriented simulation (OMNET++ discrete event simulation tool)
Scheduled in French:
TOULOUSE: 12 to 15 October 2020
(Initially scheduled : 4 to 7 May 2020)
For the English realization, please, consult us.
€1,680 excluding tax (20% VAT)