The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. ex. Some numerals are expressed as "XNUMX".
Copyrights notice
The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. Copyrights notice
La radio logicielle promet d'apporter une flexibilité et une reconfigurabilité inégalées aux systèmes sans fil, avec un énorme potentiel commercial. Au cours de la prochaine décennie, beaucoup s'attendent à ce que le SDR devienne la conception dominante sur le marché commercial du sans fil. Cependant, il existe d'importants problèmes pratiques associés à la sécurité et à la réglementation qui, s'ils ne sont pas correctement résolus, pourraient menacer d'entraîner des obstacles réglementaires empêchant, ou du moins retardant, son déploiement - un régulateur pourrait naturellement hésiter à autoriser le fonctionnement d'un téléphone dont les émissions radio peuvent être déterminées par un utilisateur final téléchargeant et utilisant un logiciel non éprouvé provenant d'une source arbitraire après l'achat. Dans cet article, nous décrivons l'architecture de gestion de la reconfiguration - une approche technologique pragmatique, développée dans le cadre de la recherche Mobile VCE, qui offre des solutions à ce problème et à d'autres problèmes SDR associés. L'approche RMA reconnaît pleinement et s'appuie sur l'interaction nécessaire entre le terminal utilisateur et le réseau pour permettre la validation complète d'un dispositif utilisateur reconfiguré avant l'autorisation opérationnelle en temps réel. Une telle architecture permet à un régulateur national de déléguer et d'attribuer la responsabilité de la validation, par exemple à un opérateur de réseau mobile. Une telle capacité peut, à son tour, faciliter la création et la croissance d’un marché ouvert de fourniture de logiciels téléchargeables, qui promet lui-même d’encourager le développement rapide de nouvelles capacités, applications et innovations. On peut s’attendre à ce que de nouveaux modèles commerciaux et sources de revenus en résultent. Cet article décrit les concepts techniques de base associés au RMA, expliquant les fonctionnalités clés résidant au sein du terminal et du réseau ainsi que leurs interrelations. Le RMA est actuellement en cours d'évaluation dans le cadre des travaux de sécurité et d'architecture du Forum SDR. Il promet de fournir des solutions réalistes susceptibles d’accélérer le déploiement commercial réussi de la technologie SDR au profit de l’industrie, tout au long de la chaîne de valeur.
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Klaus MOESSNER, Stephen HOPE, Pete COOK, Walter TUTTLEBEE, Rahim TAFAZOLLI, "The RMA--A Framework for Reconfiguration of SDR Equipment" in IEICE TRANSACTIONS on Communications,
vol. E85-B, no. 12, pp. 2573-2580, December 2002, doi: .
Abstract: Software radio promises to bring unparalleled flexibility and reconfigurability to wireless systems, with enormous commercial potential. As the next decade progresses SDR is expected by many to emerge as the dominant design in the commercial wireless marketplace. However, significant practical issues associated with security and regulation exist which, if not adequately addressed, could threaten to result in regulatory hurdles precluding, or at least delaying, its deployment--a regulator could be understandably hesitant about authorising the operation of a handset whose radio emissions can be determined by an end user downloading and using unproven software from an arbitrary source post-purchase. In this article we describe the Reconfiguration Management Architecture--a pragmatic technological approach, developed within the framework of Mobile VCE research, that offers solutions to this and other associated SDR problems. The RMA approach fully acknowledges and builds upon the necessary interaction between the user terminal and the network to allow full validation of a reconfigured user device prior to realtime operational authorisation. Such an architecture allows responsibility for validation to be delegated and assigned by a national regulator to, for example, a mobile network operator. Such a capability can, in turn, facilitate the creation and growth of an open market in downloadable software provision, which itself promises to encourage rapid development of new capabilities, applications and innovation. New business models and revenue streams may be expected to result. This article describes the basic technical concepts associated with the RMA, explaining the key functionalities residing within the terminal and the network and their interrelationships. The RMA is presently being evaluated as part of the SDR Forum's security and architecture work. It promises to provide realistic solutions that could accelerate the successful commercial deployment and rollout of SDR technology to the benefit of the industry, across the whole value chain.
URL: https://global.ieice.org/en_transactions/communications/10.1587/e85-b_12_2573/_p
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@ARTICLE{e85-b_12_2573,
author={Klaus MOESSNER, Stephen HOPE, Pete COOK, Walter TUTTLEBEE, Rahim TAFAZOLLI, },
journal={IEICE TRANSACTIONS on Communications},
title={The RMA--A Framework for Reconfiguration of SDR Equipment},
year={2002},
volume={E85-B},
number={12},
pages={2573-2580},
abstract={Software radio promises to bring unparalleled flexibility and reconfigurability to wireless systems, with enormous commercial potential. As the next decade progresses SDR is expected by many to emerge as the dominant design in the commercial wireless marketplace. However, significant practical issues associated with security and regulation exist which, if not adequately addressed, could threaten to result in regulatory hurdles precluding, or at least delaying, its deployment--a regulator could be understandably hesitant about authorising the operation of a handset whose radio emissions can be determined by an end user downloading and using unproven software from an arbitrary source post-purchase. In this article we describe the Reconfiguration Management Architecture--a pragmatic technological approach, developed within the framework of Mobile VCE research, that offers solutions to this and other associated SDR problems. The RMA approach fully acknowledges and builds upon the necessary interaction between the user terminal and the network to allow full validation of a reconfigured user device prior to realtime operational authorisation. Such an architecture allows responsibility for validation to be delegated and assigned by a national regulator to, for example, a mobile network operator. Such a capability can, in turn, facilitate the creation and growth of an open market in downloadable software provision, which itself promises to encourage rapid development of new capabilities, applications and innovation. New business models and revenue streams may be expected to result. This article describes the basic technical concepts associated with the RMA, explaining the key functionalities residing within the terminal and the network and their interrelationships. The RMA is presently being evaluated as part of the SDR Forum's security and architecture work. It promises to provide realistic solutions that could accelerate the successful commercial deployment and rollout of SDR technology to the benefit of the industry, across the whole value chain.},
keywords={},
doi={},
ISSN={},
month={December},}
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TY - JOUR
TI - The RMA--A Framework for Reconfiguration of SDR Equipment
T2 - IEICE TRANSACTIONS on Communications
SP - 2573
EP - 2580
AU - Klaus MOESSNER
AU - Stephen HOPE
AU - Pete COOK
AU - Walter TUTTLEBEE
AU - Rahim TAFAZOLLI
PY - 2002
DO -
JO - IEICE TRANSACTIONS on Communications
SN -
VL - E85-B
IS - 12
JA - IEICE TRANSACTIONS on Communications
Y1 - December 2002
AB - Software radio promises to bring unparalleled flexibility and reconfigurability to wireless systems, with enormous commercial potential. As the next decade progresses SDR is expected by many to emerge as the dominant design in the commercial wireless marketplace. However, significant practical issues associated with security and regulation exist which, if not adequately addressed, could threaten to result in regulatory hurdles precluding, or at least delaying, its deployment--a regulator could be understandably hesitant about authorising the operation of a handset whose radio emissions can be determined by an end user downloading and using unproven software from an arbitrary source post-purchase. In this article we describe the Reconfiguration Management Architecture--a pragmatic technological approach, developed within the framework of Mobile VCE research, that offers solutions to this and other associated SDR problems. The RMA approach fully acknowledges and builds upon the necessary interaction between the user terminal and the network to allow full validation of a reconfigured user device prior to realtime operational authorisation. Such an architecture allows responsibility for validation to be delegated and assigned by a national regulator to, for example, a mobile network operator. Such a capability can, in turn, facilitate the creation and growth of an open market in downloadable software provision, which itself promises to encourage rapid development of new capabilities, applications and innovation. New business models and revenue streams may be expected to result. This article describes the basic technical concepts associated with the RMA, explaining the key functionalities residing within the terminal and the network and their interrelationships. The RMA is presently being evaluated as part of the SDR Forum's security and architecture work. It promises to provide realistic solutions that could accelerate the successful commercial deployment and rollout of SDR technology to the benefit of the industry, across the whole value chain.
ER -