Abstract
By considering the definitions and properties from the field of linguistics regarding place specification, a questionnaire that can be used to improve naming in networks is obtained. The questionnaire helps introduce the idea of place specification from linguistics and the concept of metric spaces into network naming schemes. The questionnaire results are used to improve the basic Information-Centric Networking (ICN) architecture’s notoriously lax network naming structure. The improvements are realized by leveraging components from the Named-Node Network Architecture, a minor ICN design, to supply the resulting network architecture with the properties the questionnaire highlights. Evaluation results from experiments demonstrate that modifying the network architecture so that the proposed questionnaire is satisfied results in achieving high mobility performance. Specifically, the proposed system can obtain mean application goodput at above of the ideal result, with a delay below 0.104 s and with the network time-out Interest ratio below 0.082 for the proposed single mobile push producer, single mobile consumer scenario, even when the nodes reach the maximum tested speed of 14 m/s.
Highlights
The Information-Centric Networking (ICN) architecture is seen as a promising network model to enable environments for the Internet of Things (IoT)
There are a series of identified requirements that need to be met for ICN to be successfully implemented for IoT [1,2,3]
Me enhancements (MM) (Question 3 = ×) and Smart Flooding (SF) MM PR and Smart Flooding with MAP-Me enhancements (SF MM) PR 3N (Question 3 = ) is not large before the nodes start moving above 7 m/s, it becomes more than half afterwards
Summary
The Information-Centric Networking (ICN) architecture is seen as a promising network model to enable environments for the Internet of Things (IoT). These environments are enabled by multiple technologies, including established research fields such as wireless sensor networks, control systems and automation. One of the identified requirements is to have a naming and addressing strategy to successfully manage and communicate billions of constrained low-power devices [4]. Another identified requirement is seamless mobility as can be seen from the scenario list in [5]. A final identified requirement is the need for real-time support
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