25 research outputs found
Software-defined satellite cloud RAN
This is the peer reviewed version of the following article: Ahmed, T., Dubois, E., Dupé, J.-B., Ferrús, R., Gélard, P., and Kuhn, N. (2018) Software-defined satellite cloud RAN. Int. J. Satell. Commun. Network., 36: 108–133, which has been published in final form at 10.1002/sat.1206. This article may be used for non-commercial purposes in accordance with Wiley Terms and Conditions for Self-Archiving.This paper provides an assessment study on the virtualization of a Digital Video Broadcasting - Satellite - Second Generation (DVB-S2)/ Digital Video Broadcasting - Return Channel Satellite - Second Generation (DVB-RCS2) satellite ground infrastructure and proposes a framework, named Satellite Cloud Radio Access Network (SatCloudRAN), that aims to ease the integration of satellite components in forthcoming 5G systems. Special attention is given to the design of SatCloudRAN by considering the split and placement of virtualized and nonvirtualized functions while taking into account the characteristics of the transport links connecting both type of functions. We assess how virtualization and softwarization technologies, namely, network function virtualization and software-defined networking, can deliver part of the satellite gateway functionalities as virtual network functions and achieve a flexible and programmable control and management of satellite infrastructure. Under the network function virtualization paradigm, building virtual network function blocks that compose a satellite gateway have been identified, and their interaction exhibited. This paper also gives insights on how the SatCloudRAN approach can allow operators to provide software-defined networking-based (1) bandwidth on demand, (2) dynamic Quality of Service, and (3) satellite gateway diversity.Peer ReviewedPreprin
Software-defined satellite cloud RAN
This paper provides a feasibility study on the virtualization of a DVB-S2/DVB-RCS2 satellite ground
infrastructure and its SDN-based management and control. The proposed framework, SatCloudRAN, is
expected to increase the opportunities of smoothly integrating the satellite components in forthcoming
5G systems. We analyze the design of SatCloudRAN by considering various chaining of virtual and
physical functions and the characteristics of the links between them. We based our analysis on a generic
architecture of bidirectional access networks that follows the normative documents of the broadband forum
and leverage virtualization and softwarization technologies, namely NFV and SDN, to achieve a flexible and
programmable control and management of satellite infrastructure. Using a SatCloudRAN approach, network
operators will be able to provide: (1) optimized dynamic QoS, (2) resilient management of multiple satellite
gateways, and (3) dynamic bandwidth on demand. Copyright
c 2016 John Wiley & Sons, Ltd
The MoSaKa QoS system: Architecture and evaluation
The provision of Quality-of-Service (QoS) in packet-switched transmissions over highly mobile satellite terminals presents challenges not solved by existing schemes like Integrated Services and Differentiated Services. Such schemes rely on stable link conditions, a requirement that cannot be guaranteed in a mobile environment. To support robust audio and video conferencing, an end-to-end reservation-based approach is inevitable. This led to the development of the MoSaKa QoS System, which combines a reservation-based QoS scheme with the ability to deal with changing link conditions. The main idea was to enable applications to degrade gracefully if an unstable link deteriorates. Each router implements a crosslayer QoS agent, which tracks the network-layer-based QoS and takes the current status of the lower layers into account. Certain flows can be suspended without canceling them if the capacity of a link deteriorates. To select which flow has to be suspended, an optimizer was implemented which examines the flows for their priority and respective QoS requirements. To depict how this optimizer works and how the system performs, a testbed with an emulated satellite link was set up. The obtained results show, that the presented system is able to provide appropriate QoS over unstable links
Advanced random access techniques for satellite communications
In this thesis, Advanced Random Access techniques for Satellite Communications are studied. In the last years, new advances in multi-access communication protocols together with the increasing need for bidirectional communications in consumer type of interactive satellite terminals have revived the interest for a set of schemes able to guarantee high-speed and low latency communications in bursty traffic conditions. In this work, starting from the latest findings on Aloha-based Random Access schemes, the optimization of such techniques and their use in closed-loop scenarios is investigated with particular regard to the Return Channel over Satellite of Digital Video Broadcasting.
The thesis starts with a summary on the state of the art of Demand Assigned and Random Access techniques as well as on the recent evolution from the first to the second version of the Return Channel over Satellite of the Digital Video Broadcasting specification. In chapter 2 a stability and packet delay model for channel analysis and design are presented, showing that proper design through this tools can ensure high performance of the new access scheme. The use of control limit policies is also introduced and its use is thoroughly discussed both for finite and infinite users population showing that, differently from Slotted Aloha, in some cases static design over dynamic policies might be preferable if long propagation delay is present. In chapter 3 the same models and tools introduced for CRDSA are extended to the case of asynchronous Random Access schemes and a comparison of the two families of schemes is put in place demonstrating that asynchronous techniques are convenient only when the signal-to-noise ratio is high enough to ensure decodability of partially colliding packets. In chapter 4 a new access scheme currently patent pending is presented. In this scheme terminals access the channel in an unframed manner. It is shown that such a change brings improvements that further diminish latency due to immediate transmission of the first replica and further boost throughput because the number of loops on the corresponding bipartite graph representation is mitigated.
The thesis concludes with a call for a new discussion of resource allocation in multi-access satellite communication scenarios such as DVB-RCS2 in light of the obtained results and of the new requirements in interactive satellite networks
Conception et Optimisation d’Architectures Réseaux pour les Systèmes de Communication Aéronautiques
Ce mémoire présente les travaux de recherche dans lesquels j’ai pu m’investir et contribuer notamment depuis mon arrivée à l’Enac en 2003. L’ensemble de ces contributions s’inscrit dans le domaine de la conception et l’optimisation des architectures des systèmes de communications de données sol bord aéronautiques. Ce domaine d’application présente beaucoup de spécificités particulières compte-tenu des règles drastiques visant à assurer la sécurité des vols, des distances entre les nœuds communicants, et de leur vitesse. Et bien sûr, les systèmes et solutions proposés doivent prendre en compte l’ensemble de ces contraintes. Dans le contexte de ce domaine d’application, j’ai pu contribuer principalement à trois axes : — les réseaux satellitaires, — la qualité de service et la sécurité, — les réseaux ad hoc. Comme illustré dans ce mémoire, au titre de ces contributions nous pouvons citer par exemple une architecture pour un système de communication aéronautique par satellite à qualité de service pour des flux hétérogènes, une architecture de sécurité adaptative, ou encore un nouveau moyen de communication sol bord multisaut basé sur un réseau ad hoc aéronautique. Ces contributions se sont le plus souvent inscrites dans le contexte de projets de recherche nationaux qui ont permis de financer des thèses
QoS support in satellite and wireless networks : study under the network simulator (NS-2)
Aquest projecte es basa en l'estudi de l'oferiment de qualitat de servei en xarxes wireless i satel·litals. Per això l'estudi de les tècniques de cross-layer i del IEEE 802.11e ha sigut el punt clau per al desenvolupament teòric d'aquest estudi. Usant el simulador de xarxes network simulator, a la part de simulacions es plantegen tres situacions: l'estudi de la xarxa satel·lital, l'estudi del mètode d'accés HCCA i la interconnexió de la xarxa satel·lital amb la wireless. Encara que aquest últim punt, incomplet en aquest projecte, ha de ser la continuació per a futures investigacions.Este proyecto se basa en el estudio del ofrecimiento de calidad de servicio en redes wireless y satelitales. Por eso el estudio de las técnicas de cross-layer y del IEEE 802.11eha sido el punto clave para el desarrollo teórico de este estudio. Usando el simulador de redes network simulator, en la parte de simulaciones se plantean tres situaciones: el estudio de la red satelital, el estudio del método de acceso HCCA y la interconexión de la red satelital con la wireless. Aunque este último punto, incompleto en este proyecto, tiene que ser la continuación para futuras investigaciones.This project is based on the study of offering quality of service in satellite and wireless networks. For that reason the study of the techniques of cross-layer and the IEEE 802.11e has been the key point for the theoretical development of this study. Using the software network simulator, in the part of simulations three situations consider: the study of the satellite network, the study of the access method HCCA and the interconnection of the satellite network with the wireless. Although this last point, incomplete in this work, must be the continuation for future investigations
Reducing the acknowledgement frequency in IETF QUIC
Research Funding European Space Agency University of AberdeenPeer reviewedPublisher PD
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IP Mobile Multicast over Next Generation Satellite Networks. Design and Evaluation of a Seamless Mobility Framework for IP Multicast Communications over a Multi-beam Geostationary Satellite Network
The inherent broadcast nature of satellites, their global coverage and direct
access to a large number of subscribers give satellites unrivalled advantages in
supporting IP multicast applications. A new generation of satellite systems that
support regenerative on-board processors and multiple spot beam technology
have opened new possibilities of implementing IP multicast communication over
satellites. These new features enable satellites to make efficient use of their
allocated bandwidth resources and provide cost effective network services but
equally, create new challenges for mobile satellite terminals. IP mobility support
in general and IP mobile multicast support in particular on mobile satellite
terminals like the ones mounted on continental flights, maritime vessels, etc.,
still remain big challenges that have received very little attention from the
research community.
Up till now, there are no proposed mechanisms to support IP multicast for
mobile receivers/sources in multi-beam satellite networks in open literature.
This study explores the suitability of IP multicast mobility support schemes
defined for terrestrial networks in a satellite environment and proposes novel
schemes based on the concepts of Home and Remote subscription-based approaches, multiple interface and PMIPv6 protocol. Detailed analysis and
comparison of results obtained from the proposed schemes, Mobile IP (MIP)
Home and Remote subscription-based approaches (for terrestrial networks)
when implemented on a reference multi-beam satellite network are presented.
From these results, the proposed schemes outperform the MIP Home and
Remote subscription-based approaches in terms of gateway handover latency,
number of multicast packets lost and signalling cost over the satellite air
interface
Reducing Internet Latency : A Survey of Techniques and their Merit
Bob Briscoe, Anna Brunstrom, Andreas Petlund, David Hayes, David Ros, Ing-Jyh Tsang, Stein Gjessing, Gorry Fairhurst, Carsten Griwodz, Michael WelzlPeer reviewedPreprin