Transport layer design for named data wireless networking

The Named Data Networking (NDN) project is emerging as one of the most promising information-centric future Internet architectures. So far, NDN performance in wireless networks has been largely unexplored, especially for what concerns transport mechanisms, which are crucial to ensure reliable and efficient data delivery while accounting for available resources and network dynamics. In this paper, we propose a transport scheme that effects self-regulating Interest rate control (SIRC), reduces the content completion time and more efficiently utilizes channel resources in a wireless ad hoc domain. The presented strategy provides a reliable service that pairs better than most other proposals so far, with the NDN's content multi-homing semantics. A comprehensive evaluation with different traffic loads and propagation settings has been conducted by means of the official NDN simulator, ndnSIM. Our evaluation results show that SIRC outperforms the vanilla NDN approach as well as the often proposed window-based timeout-driven Additive Increase Multiplicative Decrease (AIMD) solutions in wired networks.

[1]  Alexander Afanasyev,et al.  journal homepage: www.elsevier.com/locate/comcom , 2022 .

[2]  Mark Handley,et al.  Equation-based congestion control for unicast applications , 2000, SIGCOMM.

[3]  Mario Gerla,et al.  BLOOGO: BLOOm filter based GOssip algorithm for wireless NDN , 2012, NoM '12.

[4]  Massimo Gallo,et al.  ICP: Design and evaluation of an Interest control protocol for content-centric networking , 2012, 2012 Proceedings IEEE INFOCOM Workshops.

[5]  Christian F. Tschudin,et al.  CCN & TCP co-existence in the future Internet: Should CCN be compatible to TCP? , 2013, 2013 IFIP/IEEE International Symposium on Integrated Network Management (IM 2013).

[6]  Massimo Gallo,et al.  Multipath congestion control in content-centric networks , 2013, 2013 IEEE Conference on Computer Communications Workshops (INFOCOM WKSHPS).

[7]  Van Jacobson,et al.  Networking named content , 2009, CoNEXT '09.

[8]  Alexander Afanasyev,et al.  Rapid traffic information dissemination using named data , 2012, NoM '12.

[9]  Christian F. Tschudin,et al.  An Empirical Study of Receiver-Based AIMD Flow-Control Strategies for CCN , 2013, 2013 22nd International Conference on Computer Communication and Networks (ICCCN).

[10]  Deborah Estrin,et al.  Named Data Networking (NDN) Project , 2010 .

[11]  Vasileios Pappas,et al.  Listen First, Broadcast Later: Topology-Agnostic Forwarding under High Dynamics , 2010 .

[12]  Nikos Fotiou,et al.  A Survey of Information-Centric Networking Research , 2014, IEEE Communications Surveys & Tutorials.

[13]  Antonella Molinaro,et al.  E-CHANET: Routing, forwarding and transport in Information-Centric multihop wireless networks , 2013, Comput. Commun..

[14]  George Pavlou,et al.  CCTCP: A scalable receiver-driven congestion control protocol for content centric networking , 2013, 2013 IEEE International Conference on Communications (ICC).

[15]  James Roberts,et al.  Flow-aware traffic control for a content-centric network , 2012, 2012 Proceedings IEEE INFOCOM.

[16]  Injong Rhee,et al.  An improved hop-by-hop interest shaper for congestion control in named data networking , 2013, ICN '13.