[4] | Hermann Hellwagner, Severin Kacianka, Adaptive Video Streaming for UAV Networks, In MoVid '15 Proceedings of the 7th ACM International Workshop on Mobile Video (Pal Halvorsen, Nikil Dutt, eds.), ACM International Conference on Multimedia Systems, New York, USA, pp. 25-30, 2015. (to appear)
[bib] [doi] [abstract]
Abstract: The core problem for any adaptive video streaming solution, particularly over wireless networks, is the detection (or even prediction) of congestion. IEEE 802.11 is especially vulnerable to fast movement and change of antenna orientation. When used in UAV networks (Unmanned Aerial Vehicles), the network throughput can vary widely and is almost impossible to predict. this paper evaluates an approach originally developed by Kofler for home networks, in a single-hop UAV wireless network setting: the delay between the sending of an IEEE 802.11 packet and the receipt of its corresponding acknowledgement is used as an early indicator of the link quality and as a trigger to adapt (reduce or increase) the video stream' s bitrate. Our real-world flight-tests indicate, that this avoids congestion and can frequently avoid the complete loss of video pictures which happens without adaptation.
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[3] | Claudiu Cobarzan, Marco Andrea Hudelist, Klaus Schoeffmann, Manfred Jürgen Primus, Mobile Image Analysis: Android vs. iOS, In Proceedings of the 21st International Conference on MultiMedia Modelling 2015 (MMM 2015) (Xiangjian He, Suhuai Luo, eds.), Springer, Berlin, Heidelberg, New York, pp. 12, 2015.
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[2] | Christian Beecks, Klaus Schoeffmann, Mathias Lux, Merih Seran Uysal, Thomas Seidl, Endoscopic Video Retrieval: A Signature-based Approach for Linking Endoscopic Images with Video Segments, In Proceedings of the IEEE International Symposium on Multimedia 2015 (ISM 2015) (Alberto Del Bimbo, Shu-Ching Chen, Haohong Wang, Heather Yu, Roger Zimmermann, eds.), IEEE, Los Alamitos, CA, pp. 1-6, 2015.
[bib] [abstract]
Abstract: In the field of medical endoscopy more and more surgeons are changing over to record and store videos of their endoscopic procedures, such as surgeries and examinations, in long-term video archives. In order to support surgeons in accessing these endoscopic video archives in a content-based way, we propose a simple yet effective signature-based approach: the Signature Matching Distance based on adaptive-binning feature signatures. The proposed distance-based similarity model facilitates an adaptive representation of the visual properties of endoscopic images and allows for matching these properties efficiently. We conduct an extensive performance analysis with respect to the task of linking specific endoscopic images with video segments and show the high efficacy of our approach. We are able to link more than 88% of the endoscopic images to their corresponding correct video segments, which improves the current state of the art by one order of magnitude.
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[1] | Florian Bacher, Benjamin Rainer, Hermann Hellwagner, Towards Controller-aided Multimedia Dissemination in Named Data Networking, In Proceedings of IEEE International Conference on Multimedia and Expo Workshops (available not, ed.), IEEE, Los Alamitos, CA, USA, pp. 1-6, 2015.
[bib] [doi] [pdf] [abstract]
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.
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