Objectives

This project will provide a comprehensive analysis of the current situation of the ICT sector and terrestrial networks in Africa, an assessment of the technical and financial benefits that a multiple spot beam like satellite infrastructure could bring, including satellite system detailed design and programmatic aspects.

It will identify for which purpose and under which conditions, modern multibeam satellite networks can be extended to African countries.

This study will identify the requirements on satellite telecommunication networks in African developing countries in response to anticipated needs for telecommunication services. This analysis will be carried out with the support of African actors with demonstrated expertise and experience in terrestrial telecommunication networks in Africa.

The offer of satellite telecommunication networks in these countries will be characterized within the targeted 2017 timeframe. The study will elaborate a system architecture to define the requirements at satellite level, assuming the use of existing solutions for air interface, user terminals and ground infrastructure.

A satellite technical solution based on multi-beam antennas and meeting the identified requirements will be proposed, together with a programmatic approach for the satellite payload technology development and the delivery of such a solution.

The final objective of the study is to identify the technical and financial benefits, as well as the specifics of the proposed solution, for introducing multi beam satellite networks in the African developing countries. In order to achieve these objectives, the following market scenarios will be addressed:

• Backhauling of wireless terrestrial networks for two way unicast, as well as one way broadcast;
• Remote communication for in land or coastal and for fixed or mobile platforms;
• Remote communication for European governmental organisations and for fixed or mobile platforms.

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Challenges

The project proposes key competences, expertise and complementarities of the partners in the consortium, covering the Satcom Value Chain, as well as key African partner, considered essential to complete the study objectives on the relevance of the introduction of multiple beam satellite based networks in Africa.

The study will rely on a series of interviews with major actors and stakeholders of the African telecom market, in order to define the conditions for a successful implementation of multiple beam satellite network in Africa, together with a detailed design of the satellite system and related programmatic aspects for development, manufacturing, integration, validation, launch and in-orbit acceptance of such a satellite.

Plan

The project is scheduled to last 12 months. The activity is organised in 5 main tasks:

• Identification of requirements on satellite based networks,
• Definition of requirements on multiple beam networks,
• Design of a multiple beam satellite,
• Definition of a programmatic dossier,
• Performance evaluation and synthesis.

The 5 phases of the project take places sequentially.

Companies

EADS Astrium SAS

http://www.astrium.eads.net

France

SES

https://www.ses.com

Luxembourg

Astisnet

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Objectives

OFDM techniques are currently well established in terrestrial mobile networks but have not found up to now significant use in the space community. The project had an exploratory nature evaluating possible advantages of OFDM-like waveforms in broadband satellite applications.

In addition to possible mobile applications, also fixed applications were explored. Mobile applications investigations concentrated on possible enhancement of the DVB-SH standards (like MIMO and interactive application supports). Fixed application investigations concentrated on the possible use of OFDM-like techniques to improve the spectral efficiency of DVB-RCS like systems as well as the impact of such techniques in simplifying the implementation of flexible multibeam payloads.

The main objective of the work was to investigate the potentiality of OFDM based techniques in satellite communications. The DVB-SH standard, although being much optimized for broadcasting, presents some shortcomings making it not suitable for other applications (notably, the interactive ones). Moreover, new advanced communication processing techniques, currently being pushed in the terrestrial field, can potentially increase the capacity of the radio-link.

Hence, one of the main topics was to investigate future upgrading to the DVB-SH waveform able to extend the field of applicability of the OFDM techniques from the pure TV broadcasting to more general applications while having flexibility on service configuration and improving the efficiency of the physical layer through the addition of advanced techniques like MIMO.

Furthermore, the potential advantages of OFDM in a fixed scenario were also addressed with a two-fold aims: i.e., that of improving the spectral efficiency of the RF links and that of providing more efficient ways of implementing on-board payloads able to meet the very demanding requirements of future satellites for broadband interactive networking.

Challenges

Two system alternatives for the Forward Link access of the fixed scenario were considered, one for Single Feed Per Beam payload configurations and one for active antenna payload configurations. Symbol synchronous operation of the ground elements was addressed in order to achieve on-board processor simplification.

Multiple access techniques (Single-Carrier FDMA) able to reduce envelope fluctuations were investigated for the return link and the requirement to operate symbol synchronous is the most important issue in this proposal.

A number of relevant focus areas were identified for the mobile scenario, leading to the following major addressed issues: MIMO transmission to increase spectral efficiency; introduction of QoS flexibility adapting MOD-COD and interleaver profile to each service topology through physical layer pipes (PLP); support of high mobility; support of fast acquisition; pilots and preambles for synchronization and channel estimation; PAPR reduction techniques.

Plan

The project was structured in seven Tasks.

Task 1: Benchmark systems analysis and definition of the system scenarios
Task 2: Customization of the OFDM air interface to the considered scenarios
Task 3: High level design of the ground and payload equipments
Task 4: On-ground modem and on board DSP techniques design
Task 5: End-to-end performance validation
Task 6: Assessment of the cost benefits/impacts of the devised air interfaces to the overall satellite network cost
Task 7: Recommendations for further work and standardization

Current Status

The project has been concluded. From the research activities of this project, a new technical solution has been submitted to the RCS Next Generation (RCS-NG) call for technology closed in May 2009. Thanks to the support of this Team and in collaboration with another ESA-Project (i.e., ESA Contract n. 22554/09/NL/US, “2nd Generation DVB-RCS Standardization Support”) this proposed solution has been inserted as an option in the next RCS-NG normative document. Since the RCS-NG activities will continue also in 2010 and 2011, it is important to look at the extension to mobile environments and the adaptation for mesh topologies.

Regarding the mobile scenario, since the market hosts already several waveforms serving the purpose of broadcasting data from satellite to handhelds or mobile users (DVB-SH, ESDR, DVB-NGH, CMMB, S-DMB), it is predictable that any new standard will have difficulties to enter into the market. Therefore, it has been proposed in this project that the new technologies developed here should rather be integrated into existing standards. The technical outcomes of the study may be involved in various standardization bodies, including DVB-NGH, 3GPP LTE-Advanced and ETSI-SES.

Companies

Fraunhofer Institute for Integrated Circuits (IIS)

https://www.iis.fraunhofer.de/

Germany

ISARS - National Observatory of Athens

http://www.space.noa.gr/

Greece

Mavigex

http://www.mavigex.com/

Italy

Space Engineering S.p.A

http://www.space.it/

Italy