IP multicast architectures over next-generation GEO satellites

Author

Fasson, Julien ; Chaput, Emmanuel ; Fraboul, Christian

Author_Institution

ENSEEIHT, Toulouse, France

Volume

5

fYear

2004

fDate

17-19 May 2004

Firstpage

2826

Abstract

The article proposes a new approach for IP multicast networks using a geostationary satellite. An overview of the current use of satellites for the Internet is presented. It describes the interaction between the network and link layers and underlines the limits of current solutions, i.e., the use of a transparent payload and multi protocol encapsulation (MPE). Then, solutions are proposed, presenting the use of an on-board intelligence and of a more interactive standard than DVB-S, namely DVB-RCS (DVB-return-channel-for-satellite). The paper sets out to study a system conveying multicast streams over an on-board-switching GEO satellite. We study the implementation of both an encapsulation and a signalisation protocol adapted to the system, focusing on the on-board-switching. Eventually, as food for thought, the adaptation of terrestrial protocols in this framework is brought up.

Keywords

Internet; digital video broadcasting; direct broadcasting by satellite; multicast communication; protocols; DVB-RCS; DVB-S; DVB-return-channel-for-satellite; IP multicast architectures; Internet; encapsulation protocol; link layer; multi protocol encapsulation; network layer; next-generation GEO satellites; on-board-switching satellite; signalisation protocol; signalling protocol; terrestrial protocols; transparent payload; Artificial satellites; Broadcast technology; Delay; Digital video broadcasting; Encapsulation; Internet; Next generation networking; Payloads; Satellite broadcasting; Streaming media;

fLanguage

English

Publisher

ieee

Conference_Titel

Vehicular Technology Conference, 2004. VTC 2004-Spring. 2004 IEEE 59th

ISSN

1550-2252

Print_ISBN

0-7803-8255-2

Type

conf

DOI

10.1109/VETECS.2004.1391438

Filename

1391438