Visible to the public Biblio

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Nguyen, Q. N., Lopez, J., Tsuda, T., Sato, T., Nguyen, K., Ariffuzzaman, M., Safitri, C., Thanh, N. H..  2020.  Adaptive Caching for Beneficial Content Distribution in Information-Centric Networking. 2020 International Conference on Information Networking (ICOIN). :535–540.
Currently, little attention has been carried out to address the feasibility of in-network caching in Information-Centric Networking (ICN) for the design and real-world deployment of future networks. Towards this line, in this paper, we propose a beneficial caching scheme in ICN by storing no more than a specific number of replicas for each content. Particularly, to realize an optimal content distribution for deploying caches in ICN, a content can be cached either partially or as a full-object corresponding to its request arrival rate and data traffic. Also, we employ a utility-based replacement in each content node to keep the most recent and popular content items in the ICN interconnections. The evaluation results show that the proposal improves the cache hit rate and cache diversity considerably, and acts as a beneficial caching approach for network and service providers in ICN. Specifically, the proposed caching mechanism is easy to deploy, robust, and relevant for the content-based providers by enabling them to offer users high Quality of Service (QoS) and gain benefits at the same time.
Mirkhanzadeh, B., Shao, C., Shakeri, A., Sato, T., Razo-Razo, M., Tacca, M., Fumagalli, A., Yamanaka, N..  2017.  A two-layer network Orchestrator offering trustworthy connectivity to a ROS-industrial application. 2017 19th International Conference on Transparent Optical Networks (ICTON). :1–4.

This paper describes an experiment carried out to demonstrate robustness and trustworthiness of an orchestrated two-layer network test-bed (PROnet). A Robotic Operating System Industrial (ROS-I) distributed application makes use of end-to-end flow services offered by PROnet. The PROnet Orchestrator is used to provision reliable end-to-end Ethernet flows to support the ROS-I application required data exchange. For maximum reliability, the Orchestrator provisions network resource redundancy at both layers, i.e., Ethernet and optical. Experimental results show that the robotic application is not interrupted by a fiber outage.