Dirk Trossen scite author profile

Abstract. PSIRP (Publish-Subscribe Internet Routing Paradigm) is an EU FP7 funded project that has developed a clean-slate architecture for the future Internet, based on the publish-subscribe primitives (rather than the send-receive ones), all the way down to the core networking functions. The PSIRP vision is a pure information-centric Internet architecture, possibly providing remedies to many of the current Internet problems. In PSIRP, all is information and everything is about information. Content-based identities, recursive application of ideas, cryptographic techniques, and the Trust-to-Trust principle are all extensively used to achieve the design goals. Furthermore, incentive compatibility and socio-economic considerations are guiding the design from the outset, to ground the project in reality and to provide credible and viable potential deployment paths. The project has developed, implemented, and preliminarily evaluated solutions for rendezvous, topology formation and routing, and information forwarding, with ongoing work currently focusing in experimenting. A new (also EU FP7 funded) follow-on project, PURSUIT (PublishSubscribe Internet Technologies), will refine and further explore and expand PSIRP's vision. We believe that this will eventually lead to a more complete architecture and protocol suite, thereby providing for more extensive performance evaluation and investigations on scalability. This paper provides an overview of the PSIRP concepts and the developed architecture, along with some key results, and outlines the research directions of the PURSUIT project, focusing on the project goals and its expected outcomes.

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Designing and realizing an information-centric internet

Trossen

2012

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Arguments for an information-centric internetworking architecture

Trossen

Särelä

Sollins

2010

SIGCOMM Comput. Commun. Rev.

148

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The current Internet architecture focuses on communicating entities, largely leaving aside the information to be ex-changed among them. However, trends in communication scenarios show that WHAT is being exchanged becoming more important than WHO are exchanging information. Van Jacobson describes this as moving from interconnecting ma-chines to interconnecting information. Any change of this part of the Internet needs argumentation as to why it should be undertaken in the first place. In this position paper, we identify four key challenges, namely information-centrism of applications, supporting and exposing tussles, increasing accountability, and addressing attention scarcity, that we believe an information-centric internetworking architecture could address better and would make changing such crucial part worthwhile. We recognize, however, that a much larger and more systematic debate for such change is needed, underlined by factual evidence on the gain for such change.

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Illustrating a publish-subscribe Internet architecture

2011

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Abstract-The PSIRP (Publish-Subscribe Internet Routing Paradigm) project is an EU funded project aiming at developing and evaluating a clean slate architecture for the future Internet. PSIRP's ambition is to provide a new form of internetworking which will offer the desired functionality, flexibility and performance, but will also support availability, security, and mobility, as well as opportunities for innovative applications and new market opportunities. This paper illustrates PSIRP's high level architecture, revealing its principles, core components and basic operations through example usage scenarios. While the focus of this paper is specifically on the operations within the PSIRP architecture, the revelation of the workings through our use cases can also be considered being useful to similar work on publish-subscribe architectures.Index Terms-Future Internet, clean slate, networking usage scenarios.

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Stateless multicast switching in software defined networks

Reed

Al-Naday

Thomos

et al. 2016

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Multicast data delivery can significantly reduce traffic in operators' networks, but has been limited in deployment due to concerns such as the scalability of state management. This paper shows how multicast can be implemented in contemporary software defined networking (SDN) switches, with less state than existing unicast switching strategies, by utilising a Bloom Filter (BF) based switching technique. Furthermore, the proposed mechanism uses only proactive rule insertion, and thus, is not limited by congestion or delay incurred by reactive controlleraided rule insertion. We compare our solution against common switching mechanisms such as layer-2 switching and MPLS in realistic network topologies by modelling the TCAM state sizes in SDN switches. The results demonstrate that our approach has significantly smaller state size compared to existing mechanisms and thus is a multicast switching solution for next generation networks.

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Dirk Trossen

Developing Information Networking Further: From PSIRP to PURSUIT

Designing and realizing an information-centric internet

Arguments for an information-centric internetworking architecture

Illustrating a publish-subscribe Internet architecture

Stateless multicast switching in software defined networks

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