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Delivering Multimedia in Autonomic Networking Environments

  • Vassilios Kaldanis
  • Ranganai Chaparadza
  • Giannis Katsaros
  • George Karantonis
Part of the Lecture Notes in Computer Science book series (LNCS, volume 6275)

Abstract

This paper aims to investigate the most important aspects, features and requirements around the delivery of Multimedia services in cross-layer architectures that can be exploited for the development of autonomic service management middleware on the top of autonomic networking environments. Fundamental autonomic features like self-management, self-healing and self-adaptation are closely (re) considered and analyzed through the prism of network agnostic media adaptation and other application-layer management mechanisms with the aim to indentify the expected impact of autonomics in end user service deployment experience. The work describes on a high level the specific features and requirements of a proposed autonomic service management framework for the support of steaming media applications in fixed and mobile autonomic accessed networking environments. The work is part of the EFIPSANS project one of the largest research project in IPv6 enabled autonomic networks and Extensions to IPv6 (IPv6++) towards the Self-Managing Future Internet.

Keywords

Autonomic Networking Service Management Self-Management Self-Adaptation Med 

References

  1. 1.
    EU funded FP7-EFIPSANS Project, http://efipsans.org/
  2. 2.
    Zhang, Q., Yang, F., Zhu, W.: Cross-Layer QoS Support for Multimedia Delivery over Wireless Internet. EURASIP Journal on Applied Signal Processing 2005(2), 207–215 (2005)CrossRefzbMATHGoogle Scholar
  3. 3.
    Chaparadza, R., Papavassiliou, S., Kastrinogiannis, T., Vigoureux, M., Dotaro, E., Davy, A., Quinn, K., Wódczak, M., Toth, A., Liakopoulos, A., Wilson, M.: Creating a viable Evolution Path towards Self-Managing Future Internet via a Standardizable Reference Model for Autonomic Network Engineering. In: FIA Prague 2009 Conference, Published in the Future Internet Book produced by FIA (2009)Google Scholar
  4. 4.
    Chaparadza, R., Prakash, A.: Self-configuring and Self-Adaptive Forwarding in the GANA based Self-Managing Future Internet Architecture. Submitted to the 2nd Workshop on Monitoring, Adaptation and Beyond (MONA+), November 23 or 24 (2009), co-organized with the ICSOC/ServiceWave 2009 Conference, Stockholm, SwedenGoogle Scholar
  5. 5.
    Rétvari, G., Németh, F., Chaparadza, R., Szabó, R.: OSPF for Implementing Self-adaptive Routing in Autonomic Networks: a Case Study. In: Proceedings of the the 4th IEEE International Workshop on Modelling Autonomic Communication Environments (MACE 2009), Venice, Italy, October 26-27 (2009)Google Scholar
  6. 6.
    Zafeiropoulos, A., Liakopoulos, A., Davy, A., Chaparadza, R.: Monitoring within an Autonomic Network: A GANA based Network Monitoring Framework. Submitted to the 2nd Workshop on Monitoring, Adaptation and Beyond (MONA+), November 23 or 24 (2009); co-organized with the ICSOC/ServiceWave 2009 Conference, Stockholm, SwedenGoogle Scholar
  7. 7.
    Cheng, Y., et al.: A generic architecture for autonomic service and network management. Computer Communications Journal, Copyright 2006 Elsevier B.V. All rights reserved (2006), doi:10.1016/j.comcom.2006.06.017Google Scholar

Copyright information

© Springer-Verlag Berlin Heidelberg 2010

Authors and Affiliations

  • Vassilios Kaldanis
    • 1
  • Ranganai Chaparadza
    • 2
  • Giannis Katsaros
    • 1
  • George Karantonis
    • 1
  1. 1.VELTI S.A. Mobile Marketing and AdvertisingMaroussi, AthensGreece
  2. 2.Fraunhofer FOKUS, Institute for Open Communcation SystemsBerlinGermany

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