% Tags: ICN
% Encoding: utf-8
@InProceedings{Moll2018d,
  author = {Moll, Philipp and Lux, Mathias and Theuermann, Sebastian and Hellwagner, Hermann},
  title = {{A Network Traffic and Player Movement Model to Improve Networking for Competitive Online Games}},
  booktitle = {Proceedings of the 16th Annual Workshop on Network and Systems Support for Games (NetGames 2018)},
  year = {2018},
  pages = {1--6},
  month = {Juni},
  abstract = {},
  doi = {},
  url = {https://dl.acm.org/citation.cfm?id=3307315},
  pdf = {https://www.itec.aau.at/bib/files/a1-moll.pdf}
}
@InProceedings{Moll2018c,
  author = {Moll, Philipp and Lux, Mathias and Theuermann, Sebastian and Hellwagner, Hermann},
  title = {{A Network Traffic and Player Movement Model to Improve Networking for Competitive Online Games}},
  booktitle = {Proceedings of the OAGM Workshop 2018},
  year = {2018},
  pages = {89--89},
  month = {Mai},
  abstract = {The popularity of computer games and e-sports is enormously high and still growing every year. Despite the popularity computer games often rely on old technologies, especially in the field of networking. Research in networking for games is challenging due to the low availability of up-todate datasets and network traces. In order to achieve a high user satisfaction while keeping the network activity as low as possible, modern networking solutions of computer games take players’ activities as well as closeness of players in the game world into account. In this paper, we analyze the Battle Royale game mode of the online multiplayer game Fortnite, where 100 players challenge each other in a king-of-the-hill like game within a constantly contracting game world, as an example for a popular online game with demanding technical requirements. We extrapolate player movement patterns by finding player positions automatically from videos, uploaded by Fortnite players on popular streaming platforms and show, how they influence network traffic from the client to the server and vice versa. This extended abstract features the highlights of [1], which has been accepted at the NetGames 2018 event.},
  doi = {10.3217/978-3-85125-603-1-17},
  url = {http://diglib.tugraz.at/proceedings-of-the-oagm-workshop-2018-2018}
}
@InProceedings{Moll2018b,
  author = {Moll, Philipp and Theuermann, Sebastian and Hellwagner, Hermann},
  title = {{Wireless Network Emulation for Research on Information-Centric Networking}},
  booktitle = {WiNTECH '18 Proceedings of the 12th International Workshop on Wireless Network Testbeds, Experimental Evaluation \& Characterization},
  year = {2018},
  pages = {46--55},
  address = {New York (NY)},
  month = {Oktober},
  publisher = {ACM Press},
  abstract = {When developing new approaches in networking research, one of the most important requirements is to evaluate the degree of improvement of a new approach both realistically and cost-effectively. Wireless networks and their adequate emulation play an important role in evaluation, but emulation of wireless links and networks is still difficult to handle. In this paper, we present a low-cost, fixed-network testbed able to emulate the dynamically changing conditions of wireless links caused by client mobility and physical phenomena. We extend the existing fixed-network testbed for the purpose of wireless network emulation using the Linux tools tc, iptables, and NetEm in sophisticated ways. Convenient function blocks are provided to configure wireless network topologies as well as dynamic link and mobility conditions to be emulated with modest efforts. We utilize the testbed's capabilities to investigate the influence of different mobility models on streaming SVC-encoded videos in Named Data Networking (NDN), a novel Information-Centric Networking architecture. Furthermore, we evaluate the benefits of using early loss detection mechanisms for streaming in NDN, by implementing Wireless Loss Detection and Recovery (WLDR). Our results show that the extended fixed-network testbed can precisely emulate wireless network conditions and usage. For instance, the emulation revealed that both the choice of the mobility model and the use of WLDR have a substantial influence on the resulting SVC video streaming performance.},
  doi = {10.1145/3267204.3267211},
  url = {https://dl.acm.org/citation.cfm?id=3267211},
  pdf = {https://www.itec.aau.at/bib/files/p46-moll.pdf}
}
@InProceedings{Moll2018a,
  title = {{Persistent Interests in Named Data Networking}},
  author = {Moll, Philipp and Theuermann, Sebastian and Hellwagner, Hermann},
  booktitle = {2018 IEEE 87th Vehicular Technology Conference (VTC Spring)},
  year = {2018},
  address = {Piscataway (NJ)},
  month = {Juni},
  publisher = {IEEE},
  abstract = {Recent research in the field of Information-Centric Networking (ICN) shows the need for push-based data transfer, which is not supported in current pull-based ICN architectures, such as Named Data Networking (NDN). IoT deployments as well as emergency notifications and real-time multimedia communication are well suited to be realized using the ICN principles, but experience challenges in pull-based environments. Persistent Interests (PIs) are a promising approach to introduce pushlike traffic in Interest-based ICN architectures such as NDN. In this paper, we explore the characteristics of PIs and discuss advantages and disadvantages of using them. We provide an efficient solution for preventing so-called Data loops, which are introduced by giving up NDN’s one-request-per-packet principle. Furthermore, we investigate the performance of PIs compared to classical Interests in terms of the computational complexity of forwarding and discuss possible applications of PIs.},
  doi = {10.1109/VTCSpring.2018.8417861},
  url = {https://ieeexplore.ieee.org/document/8417861/},
  pdf = {https://www.itec.aau.at/bib/files/08417861.pdf}
}
@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}
}
@InProceedings{Moll2017a,
  author = {Moll, Philipp and Posch, Daniel and Hellwagner, Hermann},
  booktitle = {Proceedings of the IEEE International Conference on Multimedia and Expo Workshops (ICMEW) 2017},
  title = {Investigation of push-based traffic for conversational services in Named Data Networking},
  year = {2017},
  address = {Hong Kong},
  editor = {Pesquet-Popescu,Beatrice and Ngo,Chong-Wah},
  month = {jul},
  pages = {315-320},
  publisher = {IEEE},
  abstract = {Conversational services (e.g., Internet telephony) exhibit hard Quality of Service (QoS) requirements, such as low delay and jitter. Current IP-based solutions for conversational services use push-based data transfer only, since pull-based communication as envisaged in Named Data Networking (NDN) suffers from the two-way delay. Unfortunately, IP's addressing scheme requires additional services for contacting communication partners. NDN provides an inherent solution for this issue by using a location-independent naming scheme. Nevertheless, it currently does not provide a mechanism for push-based data transfer. In this paper, we investigate Persistent Interests as a solution for push-based communication. We improve and implement the idea of Persistent Interests, and study their applicability for conversational services in NDN. This is done by comparing different push- and pull-based approaches for Internet telephony.},
  doi = {10.1109/ICMEW.2017.8026212},
  isbn13 = {978-1-5386-0560-8},
  language = {EN},
  location = {Hong Kong},
  pdf = {https://www.itec.aau.at/bib/files/MuSIC_2017.pdf},
  talkdate = {2017.07.10},
  talktype = {registered},
  url = {http://ieeexplore.ieee.org/document/8026212/}
}
@InProceedings{Moll2017,
  author = {Moll, Philipp and Janda, Julian and Hellwagner, Hermann},
  booktitle = {Proceedings of the 4th ACM Conference on Information-Centric Networking},
  title = {Adaptive Forwarding of Persistent Interests in Named Data Networking},
  year = {2017},
  address = {New York, NY, USA},
  editor = {Schmidt, Thomas C and Seedorf, Jan},
  month = {sep},
  pages = {180-181},
  publisher = {ACM},
  abstract = {Persistent Interests (PIs) are a promising approach to introduce push-type traffic in Named Data Networking (NDN), in particular for conversational services such as voice and video calls. Forwarding decisions for PIs are crucial in NDN because they establish a long-lived path for the data flowing back toward the PI issuer. In the course of studying the use of PIs in NDN, we investigate adaptive PI forwarding and present a strategy combining regular NDN forwarding information and results from probing potential alternative paths through the network. Simulation results indicate that our adaptive PI forwarding approach is superior to the PI-adapted Best Route strategy when network conditions change due to link failures.},
  doi = {10.1145/3125719.3132091},
  isbn13 = {978-1-4503-5122-5},
  language = {EN},
  location = {Berlin, Germany},
  pdf = {https://www.itec.aau.at/bib/files/ACM-ICN-2017_Poster.pdf},
  talkdate = {2017.09.27},
  talktype = {registered},
  url = {http://dl.acm.org/citation.cfm?id=3132091}
}
@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}
}
@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{Crabtree2013,
  author = {Crabtree, Barry and Stevens, Tim and Allan, Brahin and Lederer, Stefan and Posch, Daniel and Mueller, Christopher and Timmerer, Christian},
  booktitle = {CCNxConn 2013},
  title = {Video Adaptation in Limited or Zero Network Coverage},
  year = {2013},
  address = {Palo Alto},
  editor = {Mahadevan, Priya},
  month = {sep},
  pages = {1-2},
  publisher = {PARC},
  abstract = {This paper shows how adaptive streaming and on-device caching can be used to provide an always available video service. A DASH client has been extended to deal with periods of zero network connectivity, and seamlessly works in conjunction with CCN to provide local storage that is intelligently updated to provide an improved quality of experience.},
  language = {EN},
  location = {Palo Alto, CA, USA},
  pdf = {https://www.itec.aau.at/bib/files/Video adaptation in limited or zero network coverage-CCNxCon.pdf},
  talkdate = {2013.09.06},
  talktype = {poster},
  url = {http://www.ccnx.org/ccnxcon2013/ccnxcon-2013-official-agenda/}
}