% Categories: ICN
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@Article{Posch2017a,
  author = {Posch, Daniel and Rainer, Benjamin and Hellwagner, Hermann},
  journal = {IEEE/ACM Transactions on Networking},
  title = {SAF: Stochastic Adaptive Forwarding in Named Data Networking},
  year = {2017},
  month = {apr},
  number = {2},
  pages = {14},
  volume = {25},
  abstract = {Forwarding decisions in classical IP-based networks are predetermined by routing. This is necessary to avoid loops, inhibiting opportunities to implement an adaptive and intelligent forwarding plane. Consequently, content distribution efficiency is reduced due to a lack of inherent multi-path transmission. In Named Data Networking (NDN) instead, routing shall hold a supporting role to forwarding, providing sufficient potential to enhance content dissemination at the forwarding plane. In this paper we design, implement, and evaluate a novel probability-based forwarding strategy, called Stochastic Adaptive Forwarding (SAF) for NDN. SAF imitates a self-adjusting water pipe system, intelligently guiding and distributing Interests through network crossings circumventing link failures and bottlenecks. Just as real pipe systems, SAF employs overpressure valves enabling congested nodes to lower pressure autonomously. Through an implicit feedback mechanism it is ensured that the fraction of the traffic forwarded via congested nodes decreases. By conducting simulations we show that our approach outperforms existing forwarding strategies in terms of the Interest satisfaction ratio in the majority of the evaluated scenarios. This is achieved by extensive utilization of NDN's multipath and content-lookup capabilities without relying on the routing plane. SAF explores the local environment by redirecting requests that are likely to be dropped anyway. This enables SAF to identify new paths to the content origin or to cached replicas, circumventing link failures and resource shortages without relying on routing updates.},
  address = {New York, USA},
  doi = {10.1109/TNET.2016.2614710},
  language = {EN},
  pdf = {https://www.itec.aau.at/bib/files/saf.pdf},
  publisher = {IEEE},
  url = {https://dx.doi.org/10.1109/TNET.2016.2614710}
}
@Article{Posch2017,
  author = {Posch, Daniel and Rainer, Benjamin and Hellwagner, Hermann},
  journal = {Computer Communication Review},
  title = {Towards a Context-Aware Forwarding Plane in Named Data Networking supporting QoS},
  year = {2017},
  month = {jan},
  number = {1},
  pages = {9},
  volume = {47},
  abstract = {The emergence of Information-Centric Networking (ICN) provides considerable opportunities for context-aware data distribution in the network's forwarding plane. While packet forwarding in classical IP-based networks is basically predetermined by routing, ICN foresees an adaptive forwarding plane considering the requirements of network applications. As research in this area is still at an early stage, most of the work so far focused on providing the basic functionality, rather than on considering the available context information to improve Quality of Service (QoS). This article investigates to which extent existing forwarding strategies take account of the available context information and can therefore increase service quality. The article examines a typical scenario encompassing different user applications (Voice over IP, video streaming, and classical data transfer) with varying demands (context), and evaluates how well the applications' requirements are met by the existing strategies.},
  address = {New York, USA},
  doi = {10.1145/3041027.3041029},
  language = {EN},
  pdf = {https://www.itec.aau.at/bib/files/ccr.pdf},
  publisher = {ACM SIGCOMM},
  url = {https://dl.acm.org/citation.cfm?doid=3041027.3041029}
}
@TechReport{Westphal2016,
  author = {Westphal, Cedric and Lederer, Stefan and Posch, Daniel and Timmerer, Christian and Azgin, Aytac and Liu, Will Shucheng and Müller, Christopher and Detti, Andrea and Corujo, Daniel and Wang, Jianping and Montpetit, Marie-Jose and Murray, Niall},
  institution = {Internet Engineering Task Force},
  title = {Adaptive Video Streaming over Information-Centric Networking (ICN) -- RFC 7933},
  year = {2016},
  address = {5177 Brandin Court Fremont, California 94538 USA},
  month = {aug},
  language = {EN},
  pages = {40},
  url = {http://www.ietf.org/rfc/rfc7933.txt}
}
@Article{Rainer2016a,
  author = {Rainer, Benjamin and Posch, Daniel and Leibetseder, Andreas and Theuermann, Sebastian and Hellwagner, Hermann},
  journal = {Communications Magazine, IEEE},
  title = {A Low-Cost NDN Testbed on Banana Pi Routers},
  year = {2016},
  month = sep,
  number = {9},
  pages = {6},
  volume = {54},
  abstract = {The computer communication research community shows significant interest in the paradigm of Information-Centric Networking (ICN). Continuously, new proposals for ICN-related challenges (caching, forwarding, etc.) are published. However, due to a lack of a readily available testbed, the majority of these proposals is evaluated either by theoretical analysis and/or by conducting network simulations potentially masking further challenges that are not observable in synthetic environments. Therefore, this article presents a framework for an ICN testbed using low-budget physical hardware with little deployment and maintenance effort for the individual researcher; specifically, Named Data Networking is considered. The employed hardware and software are powerful enough for most research projects, but extremely resource intensive tasks may push both components towards their limits. The testbed framework is based on well established open source software and provides the tools to readily investigate important ICN characteristics on physical hardware emulating arbitrary network topologies. The article discusses the testbed architecture and provides first results obtained from emulations that investigate the performance of various forwarding strategies. The results indicate that further challenges have to be overcome when heading towards a real-world deployment of ICN-based communication.},
  address = {New York, USA},
  keywords = {ICN},
  language = {EN},
  pdf = {https://www.itec.aau.at/bib/files/commmagRainer.pdf},
  publisher = {IEEE}
}
@Article{Rainer2016,
  author = {Rainer, Benjamin and Posch, Daniel and Hellwagner, Hermann},
  journal = {Journal on Selected Areas in Communications},
  title = {Investigating the Performance of Pull-based Dynamic Adaptive Streaming in NDN},
  year = {2016},
  issn = {1558-0008},
  month = {aug},
  number = {8},
  pages = {11},
  volume = {34},
  abstract = {Adaptive content delivery is the state-of-the-art in real-time multimedia streaming. Leading streaming approaches, e.g., MPEG-DASH and Apple HLS, have been developed for classical IP-based networks, providing effective streaming by means of pure client-based control and adaptation. However, the research activities of the Future Internet community adopt a new course that is different from today's host-based communication model. So-called Information-Centric Networks are of considerable interest and are advertised as enablers for intelligent networks, where effective content delivery is to be provided as an inherent network feature. This paper investigates the performance gap between pure client-driven adaptation and the theoretical optimum in the promising Future Internet architecture Named Data Networking (NDN). The theoretical optimum is derived by modeling multimedia streaming in NDN as a fractional Multi-Commodity Flow Problem and by extending it taking caching into account. We investigate the multimedia streaming performance under different forwarding strategies, exposing the interplay of forwarding strategies and adaptation mechanisms. Furthermore, we examine the influence of network inherent caching on the streaming performance by varying the caching polices and the cache sizes.},
  address = {New York, USA},
  doi = {10.1109/JSAC.2016.2577365},
  keywords = {Information-Centric Networking; Named Data Networking; Multimedia; Dynamic Adaptive Streaming.},
  language = {EN},
  pdf = {https://www.itec.aau.at/bib/files/jsac.pdf},
  publisher = {IEEE}
}
@InProceedings{Posch2016,
  author = {Posch, Daniel and Rainer, Benjamin and Theuermann, Sebastian and Leibetseder, Andreas and Hellwagner, Hermann},
  booktitle = {Proceedings of the 7th International Conference on Multimedia Systems},
  title = {Emulating NDN-based Multimedia Delivery},
  year = {2016},
  address = {New York},
  editor = {Timmerer, Christian and Begen, Ali},
  month = {may},
  pages = {4},
  publisher = {ACM Digital Library},
  series = {MMSys '16},
  abstract = {Today, the global share and increase of Internet traffic is largely caused by multimedia delivery, mainly encompassing video, audio and image sharing on social, news, and entertainment platforms. This fact is well known to the Internet research community, which tries to counteract by increasing the content delivery efficiency. So-called Information-Centric Networks (ICN) are of considerable interest, advertised as enablers for intelligent networks, where effective delivery is to be provided as an inherent network feature. Most research proposals in this area are evaluated in simulated environments, using simulation frameworks such as OMNeT++ or ns-3. However, simulations always have shortcomings and cannot substitute measurements in physical networks. In this demonstration, we show how to readily set up an ICN-based testbed using low-budget single-board computers to conduct comprehensive emulations. We choose the scenario of pull-based adaptive video delivery as a showcase and evaluate the performance of different client-based adaptation mechanisms at the application level and different content forwarding strategies at the network level. All of the presented tools and visualization features are provided as open source contributions to the community.},
  doi = {10.1145/2910017.2910626},
  isbn13 = {978-1-4503-4297-1},
  keywords = {Named Data Networking, Information-Centric Networking, Network Emulation, Adaptive Multimedia Delivery, Testbed},
  language = {EN},
  location = {Klagenfurt, Austria},
  pdf = {https://www.itec.aau.at/bib/files/pi-demo.pdf},
  talkdate = {2016.05.11},
  talktype = {poster},
  url = {http://doi.acm.org/10.1145/2910017.2910626}
}
@InProceedings{Kreuzberger2015b,
  author = {Kreuzberger, Christian and Rainer, Benjamin and Hellwagner, Hermann},
  booktitle = {IEEE International Conference on Multimedia Expo Workshops},
  title = {Modelling the Impact of Caching and Popularity on Concurrent Adaptive Multimedia Streams in Information-Centric Networks},
  year = {2015},
  address = {Los Alamitos, CA, USA},
  editor = {Matteo, Cesana},
  month = {jul},
  pages = {1--6},
  publisher = {IEEE},
  series = {ICMEW '15},
  abstract = {The Internet is nowadays mainly used for streaming of multimedia content, something it was not built for originally. To guarantee user satisfaction, one of the key concepts of the Internet as we know it is bandwidth sharing. While this concept is necessary to provide stability in the network, several issues can arise with adaptive multimedia streaming, e.g., efficiency and stability. Considering Information-Centric Networking (ICN) and its network-inherent caching, those issues tend to become worse. Many researchers have proposed to use traffic shaping on the server to enable fair bandwidth sharing and stabilize clients. However, existing research does not consider content popularity and in-network caching. The contribution of this paper is two-fold. First, we propose a cache-aware traffic shaping policy, in order to guarantee seamless playback of videos. Second, based on content popularity, we calculate an average video quality achieved by this traffic shaping policy for various cache sizes, to show the impact of popularity and caching for multimedia streaming in ICN.},
  doi = {10.1109/ICMEW.2015.7169763},
  keywords = {Content Popularity; Adaptive Multimedia Streaming; Information-Centric Networking; Traffic Shaping},
  language = {EN},
  location = {Torino, Italy},
  pdf = {https://www.itec.aau.at/bib/files/music_modelling_streaming_revision1_v3.pdf},
  talkdate = {2015.07.03},
  talktype = {registered}
}
@InProceedings{Bacher2015a,
  author = {Bacher, Florian and Rainer, Benjamin and Hellwagner, Hermann},
  booktitle = {Proceedings of IEEE International Conference on Multimedia and Expo Workshops},
  title = {Towards Controller-aided Multimedia Dissemination in Named Data Networking},
  year = {2015},
  address = {Los Alamitos, CA, USA},
  editor = {not, available},
  month = {jul},
  pages = {1--6},
  publisher = {IEEE},
  series = {ICMEW '15},
  abstract = {Software Defined Networking (SDN) and Named Data Networking (NDN) are two topics which have received lots of attention in the networking research community in recent years. While both have emerged independently from each other we believe that their core features can be well aligned to each other. Hence combining both may hold potential benefits for network operators. In this paper we investigate the advantage of having a central SDN controller which is aware of the complete topology of an underlying NDN network. In our approach we use the controller for routing Interests for names unknown to the forwarding elements and to find alternative routes in case of link congestion. Another advantage of SDN is the ability to analyze and control the network on an application-layer component which communicates with the controller. This allows the development of application-aware networks that support the specific needs of the applications that use them. As an example use case we assumed a network whose main purpose is to disseminate multimedia content with Zipf-distributed popularity among users. Having an application layer which knows about content popularity statistics we improve the dissemination of multimedia content by instructing dedicated nodes in the network to prefetch content which is expected to become popular in their geographical region or autonomous system (AS) in the near future. The aim of this approach is to reduce the distance to potential consumers and reduce the load of the core network.},
  doi = {10.1109/ICMEW.2015.7169842},
  isbn10 = {978­1­4799­7079­7},
  keywords = {Information Centric Networking; Named Data Networking; Software Defined Networking; Routing; Forwarding; Caching},
  language = {EN},
  location = {Turino, Italy},
  pdf = {https://www.itec.aau.at/bib/files/07169842.pdf},
  talkdate = {2015.07.03},
  talktype = {registered}
}
@InProceedings{Posch2014b,
  author = {Posch, Daniel and Kreuzberger, Christian and Rainer, Benjamin and Hellwagner, Hermann},
  booktitle = {Proceedings of the 10th International Conference on Emerging Networking Experiments and Technologies, VideoNext Workshop},
  title = {Using In-Network Adaptation to Tackle Inefficiencies Caused by DASH in Information-Centric Networks},
  year = {2014},
  address = {New York, NY, USA},
  editor = {Dixon, Colin},
  month = {dec},
  pages = {1-6},
  publisher = {ACM Digital Library},
  abstract = {The consumption of audio-visual content is the most dominant traffic source in today's Internet. Novel architectural approaches, such as Information-Centric Networking (ICN), are developed to support efficient multimedia dissemination. As ICN and MPEG-DASH have several concepts in common, recent proposals consider a fusion of both technologies. However, MPEG-DASH relies on pure client-driven adaptation. This often rather selfish adaptation strategy inhibits benefits gained from ICN's inherent caching and multi-path transmission capabilities. In order to overcome this challenge, the contribution of this work is the integration of in-network adaptation (INA) in ICN. We illustrate that INA can be realized despite ICN's content-based security model. Our proposal rests on scalable content, which enables INA without management and transmission overhead.},
  keywords = {Information-Centric Networking; In-Network Adaptation; Adaptive Streaming; Multimedia Dissemination},
  language = {EN},
  location = {Sydney, Australia},
  pdf = {https://www.itec.aau.at/bib/files/video01fp.pdf},
  talkdate = {2014.12.02},
  talktype = {registered}
}
@InProceedings{Posch2014,
  author = {Posch, Daniel and Kreuzberger, Christian and Rainer, Benjamin and Hellwagner, Hermann},
  booktitle = {Proceedings of the 1st ACM Conference on Information-Centric Networking},
  title = {Client Starvation: A Shortcoming of Client-driven Adaptive Streaming in Named Data Networking},
  year = {2014},
  address = {New York, NY, USA},
  editor = {Mendes, Paulo},
  month = {sep},
  pages = {1-2},
  publisher = {ACM Digital Library},
  abstract = {Information-centric Networking (ICN) as a potential Future Internet architecture has to efficiently support the consumption of multimedia content. Recent proposals consider the reuse of MPEG-DASH to provide adaptive streaming in ICN. Due to the fact that MPEG-DASH relies on pure client-driven adaptation, it encounters difficulties dealing with ICN's inherent caching and multi-path transmission. By conducting simulations using the concrete ICN approach Named Data Networking (NDN), we show that pure client-driven adaptation leads to shortcomings. Furthermore, we propose to use in-network adaptation based on scalable content for overcoming these shortcomings in NDN.},
  doi = {10.1145/2660129.2660162},
  keywords = {Information-centric Networking; Adaptive Streaming},
  language = {EN},
  location = {Paris, Frankreich},
  pdf = {https://www.itec.aau.at/bib/files/icn14_final.pdf},
  talkdate = {2014.09.26},
  talktype = {poster},
  url = {http://dx.doi.org/10.1145/2660129.2660162}
}
@Article{Hellwagner2014c,
  author = {Lederer, Stefan and Mueller, Christopher and Timmerer, Christian and Hellwagner, Hermann},
  journal = {IEEE Network},
  title = {Adaptive Multimedia Streaming in Information-Centric Networks},
  year = {2014},
  month = {nov},
  number = {6},
  pages = {91-96},
  volume = {28},
  abstract = {ICN has received a lot of attention in recent years, and is a promising approach for the Future Internet design. As multimedia is the dominating traffic in today's and (most likely) the Future Internet, it is important to consider this type of data transmission in the context of ICN. In particular, the adaptive streaming of multimedia content is a promising approach for usage within ICN, as the client has full control over the streaming session and has the possibility to adapt the multimedia stream to its context (e.g. network conditions, device capabilities), which is compatible with the paradigms adopted by ICN. In this article we investigate the implementation of adaptive multimedia streaming within networks adopting the ICN approach. In particular, we present our approach based on the recently ratified ISO/IEC MPEG standard Dynamic Adaptive Streaming over HTTP and the ICN representative Content-Centric Networking, including baseline evaluations and open research challenges.},
  address = {IEEE Communications Society},
  language = {EN},
  publisher = {IEEE}
}
@InProceedings{Posch2013,
  author = {Posch, Daniel and Hellwagner, Hermann and Schartner, Peter},
  booktitle = {Proceedings of the 8th International Workshop on Secure Network Protocols (NPSec' 13)},
  title = {On-Demand Video Streaming based on Dynamic Adaptive Encrypted Content Chunks},
  year = {2013},
  address = {Los Alamitos, CA, USA},
  editor = {Li, Jun and Maennel, Olaf},
  month = {oct},
  pages = {6},
  publisher = {IEEE},
  abstract = {This paper proposes a framework for on-demand video streaming that enables secure and efficient delivery of data towards the end user. Our proposal requires the combined usage of three different technologies. The first one is a recent proposal by Jacobsen et al. called Content-Centric Networking (also known as Named Data Networking). It is a network architecture that introduces named data as the most valuable element in the network and divides it into so called content chunks, which are self-identifying and self-authenticating data units. The second concept we utilize derives from the approach of Dynamic Adaptive Streaming over HTTP, which allows clients to dynamically choose the quality of the received video stream according to their available resources. Finally, we adapt the concept of Broadcast Encryption to form a tool to control the access to provided content streams. The combination of these technologies enables us to design a framework that allows streaming providers to transport data to customers as dynamic adaptive encrypted content chunks, which is an efficient, flexible and scalable way of multimedia data transport.},
  keywords = {Content-Centric Networking, CCN, Named Data Networking, NDN, Dynamic Adaptive Streaming, DASH, Broadcast Encryption, Video on Demand},
  language = {EN},
  location = {Germany, Göttingen},
  pdf = {https://www.itec.aau.at/bib/files/ICNP_NPSEC_Streaming.pdf},
  talkdate = {2013.10.07},
  talktype = {registered}
}
@InProceedings{Lederer2013c,
  author = {Lederer, Stefan and Mueller, Christopher and Rainer, Benjamin and Timmerer, Christian and Hellwagner, Hermann},
  booktitle = {Proceedings of the IEEE International Conference on Multimedia and Expo (ICME) 2013},
  title = {An Experimental Analysis of Dynamic Adaptive Streaming over HTTP in Content Centric Networks},
  year = {2013},
  address = {San Jose, USA},
  editor = {Wang, Haohong},
  month = {jul},
  pages = {1-6},
  publisher = {IEEE},
  abstract = {This paper presents the usage of CCN, which is a candidate for the next-generation Internet, in combination with the new Dynamic Adaptive Streaming over HTTP (DASH) standard, which was recently ratified by ISO/IEC MPEG. In contrast to the Internet Protocol, which is mainly based on the host-to-host connection paradigm originated in the 1970s, Content Centric Networking (CCN) focuses on the content itself, instead of its location. Considering the dominance of multimedia traffic in todays' Internet, the streaming performance of DASH over CCN as well as the problems introduced by this combination is worth to be investigated in detail. Therefore, we evaluate the protocol overhead introduced by the usage of CCN compared to the HTTP versions 1.0 and 1.1. Furthermore, the performance of DASH over CCN under different network conditions is compared to the performance of HTTP 1.0/1.1. Our results showed that although CCN comes together with higher protocol overhead than HTTP 1.0/1.1 as well as a prototype implementation, it can definitely compete with HTTP 1.0 in media streaming. Based on the evaluation results, problems as well as improvement possibilities are identified, which are the basis for future work in this area.},
  language = {EN},
  location = {San Jose, USA},
  pdf = {https://www.itec.aau.at/bib/files/ICME_Overhead-Performance-DASHoverCCN.pdf},
  talkdate = {2013.07.18},
  talktype = {registered}
}
@InProceedings{Lederer2013b,
  author = {Lederer, Stefan and Mueller, Christopher and Rainer, Benjamin and Timmerer, Christian and Hellwagner, Hermann},
  booktitle = {In Proceedings of the IEEE ICC'13 - Workshop on Immersive \& Interactive Multimedia Communications over the Future Internet},
  title = {Adaptive Streaming over Content Centric Networks in Mobile Networks using Multiple Links},
  year = {2013},
  address = {Budapest},
  editor = {Assuncao, Pedro and Atzori, Luigi and Dagiuklas, Tasos and Kondoz, Ahmet},
  month = {jun},
  pages = {687-691},
  publisher = {IEEE},
  abstract = {This paper presents the usage of Content Centric Networking (CCN) for adaptive multimedia streaming in mobile environments, leveraging the recent ISO/IEC MPEG Dynamic Adaptive Streaming over HTTP (DASH) standard. The performance of DASH over CCN is evaluated using real-world mobile bandwidth traces and compared to previous evaluations of different DASH-based as well as proprietary systems. As there are no client-server connections in CCN, it offers the possibility to transfer data from multiple sources as well as over multiple links in parallel, which is definitely an important feature, e.g., for mobile devices offering multiple network links. This functionality is used and evaluated in this paper in combination with DASH, making it possible to dynamically choose the best performing link for media streaming, which is a clear advantage over DASH using HTTP and the TCP/IP protocol stack. The evaluation therefore investigates DASH over CCN in two scenarios using synthetic and real-world mobile bandwidth traces respectively, showing a significantly better performance than conventional DASH using only one connection.},
  keywords = {MPEG-DASH, CCN, Dynamic Adaptive Streaming over HTTP, Content Centric Networking, Evaluation},
  language = {EN},
  location = {Budapest, Hungary},
  pdf = {https://www.itec.aau.at/bib/files/ICC2013_Mobile_DASHoverCCN.pdf},
  talkdate = {2013.06.13},
  talktype = {registered},
  url = {http://multicomm.diee.unica.it/}
}
@Article{Lederer2013_MMC,
  author = {Lederer, Stefan and Mueller, Christopher and Grandl, Reinhard and Timmerer, Christian},
  journal = {IEEE Multimedia Communications Technical Committee E-Letter},
  title = {Adaptive Multimedia Streaming over Information-Centric Networks in Mobile Networks using Multiple Mobile Links},
  year = {2013},
  month = {nov},
  number = {6},
  pages = {38-41},
  volume = {8},
  address = {New York, NY, USA},
  language = {EN},
  pdf = {https://www.itec.aau.at/bib/files/E-Letter-Nov2013.pdf},
  publisher = {IEEE Communications Society [online]},
  url = {http://committees.comsoc.org/mmc/e-news/E-Letter-Nov2013.pdf}
}