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SANDRA - Seamless Aeronautical Networking through integration of Data links Radios and Antennas

SANDRA

The overall air transportation sector is currently under significant stress. With the demand in aircraft operations expected at least to double by the 2025 timeframe, there are well-founded concerns that current air transportation systems will not be able to accommodate this growth. Existing systems are unable to process and provide flight information in real time, and current processes and procedures do not provide the flexibility needed to meet the growing demand. New security requirements are affecting the ability to efficiently move people and cargo:

The integration of different service domains with very heterogeneous requirements through a cost-effective and flexible avionic architecture is thus one of the main challenges addressed by the EU research project SANDRA. In this light, the SANDRA communication system will represent a key enabler for the global provision of distributed services for Common Decision Making based on the System Wide Information Management concept, and for meeting the high market demand for broadband passenger and enhanced cabin communication services.

In addition, the growth in air transportation has provoked community concerns over aircraft noise, air quality and airspace congestion. In summary, with the tools and procedures in use today, the effective increase of air traffic will be fundamentally limited and it is already approaching its limits. Focusing on communications related aspects, the following high-level requirements can be identified, in order to allow future systems to be compatible with the expected air-traffic increase:

• Pilots situation awareness shall be improved
• Capacity at airports, today one of the main limiting structural factors, shall be increased
• ATS shall be primarily based on highly reliable data communication
• AOC data traffic shall strongly increase for efficient airline operations
• Passengers and cabin communications systems shall be further developed
• Safety critical applications shall need diverse means to reach ground for global availability and higher reliability
• A simplification of on-board network architecture shall need convergence of protocols and interfaces

To cope with these issues, new communication concepts are being developed in SESAR and in the AOC/APC domains. They aim at the definition of an access to an open system. This result in a collection of communications technologies targeted at specific operational settings. This represents a considerable extra burden to be carried by the aircraft, should the new radio links be implemented in stand-alone equipments. Moreover, although it has been suggested that the new systems will eventually replace the legacy communications systems, the likelihood is that there will be a lengthy period where aircraft will be fitted with all of the systems for global interoperability. This is the forecast expressed by SESAR, and the additional airborne equipment required during this transition phase severely threatens the realization of the future communications vision. Hence, a different approach aiming at a broader level of integration is needed to achieve the required increase of capacity, safety, security and efficiency of air transportation operations while at the same time keeping complexity and cost of on-board networks and equipments within a sustainable level.

This is indeed the truly integrated modular approach for a global aeronautical network and communication architecture proposed by SANDRA.

The SANDRA concept consists of the integration of complex and disparate communication media into a lean and coherent architecture that:

• provides and manages seamless service coverage across all airspace domains and all aircraft classes
• sustains growth in the service market and enables easy plug-in of future radio technologies through modularity and configurability
• is upgradeable, easy reconfigurable and radio technology independent
• is distributed and instantiated into consistent ground-based and airborne sub-networks ensuring full interoperability SANDRA covers from RF and avionics components up to the middleware layer of the on-board network, assembled and integrated under the most stringent safety and security requirements. Ultimately, SANDRA pursues the architectural integration of aeronautical communication systems using:
• well-proven industry standards like IP, IEEE 802.16 (WiMAX), DVB-S2, Inmarsat SwiftBroadBand,
• a set of common interfaces 
• standard network protocols having IPv6 as final unification point to enable a cost-efficient global and reliable provision of distributed services across all airspace domains and to all aircraft classes.

The SANDRA validation activity will show the ability of the proposed integrated architecture to easily reconfigure and adapt for the flexible implementation of new communication services.
The SANDRA consortium is lead by Selex Elsag Spa, Italy and DLR is the second strongest partner within this consortium of 30 international partners. The project started in October 2009 and will last 4 years. First results are published in the free accessible book Future Aeronautical Communications. For more information, please visit: http://www.sandra.aero/

Partners:

Selex Communications Spa (Project Coordinator); IT
Deutsches Zentrum für Luft- und Raumfahrt e.V.; DE
Selex Elsag Spa (Project Coordinator); IT
Thales Alenia Space; FR
Thales Aerospace UK; UK
Thales Avionics; FR
Thales TRT - UK; UK
Airtel ATN; IE
Acreo; SE
Alenia Aeronautica; IT
Altys; FR
Bradford University; UK
Cyner; NL
Dassault Aviation; FR
Deutsche Flugsicherung GmbH; DE
EADS Innovation Works France; FR
Gatehouse; DK
IMST GmbH; DE
Intecs; IT
INRIA; FR
Lionix BV; NL
Monitorsoft; RU
NLR; NL
RadioLabs; IT

SITA; CH
Slot Consulting; HU
TriaGnoSys GmbH; DE
TURs; TR
University of Twente; NL
University of Pisa; IT
Paris Lodron Universität Salzburg; AT