Manage Resource-constrained IoT Devices Through Dynamically Generated and Deployed YANG Models. Scheffler, T. & Bonness, O. In Proceedings of the Applied Networking Research Workshop, of ANRW '17, pages 42-47, 2017. ACM. ![Manage Resource-constrained IoT Devices Through Dynamically Generated and Deployed YANG Models [link]](https://bibbase.org/img/filetypes/link.svg "link")
Website abstract bibtex This paper presents an experimental design/approach that allows the standardized management protocol NETCONF to handle dynamically changing networks found in the IoT and Home-Networking domain. Management of such networks is challenging, because they usually grow out of spontaneous device assemblies, rather than an engineering blueprint. Network membership may be highly dynamic and the devices might only possess very limited computation and communication budgets. It is our goal to develop methods and strategies for automatic device discovery and configuration maintenance in such networks. In our experiment we dynamically generate YANG data models and NETCONF RPCs from device profiles written in JSON and map these to configuration commands in the lightweight MQTT protocol.
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abstract = {This paper presents an experimental design/approach that allows the standardized management protocol NETCONF to handle dynamically changing networks found in the IoT and Home-Networking domain. Management of such networks is challenging, because they usually grow out of spontaneous device assemblies, rather than an engineering blueprint. Network membership may be highly dynamic and the devices might only possess very limited computation and communication budgets. It is our goal to develop methods and strategies for automatic device discovery and configuration maintenance in such networks. In our experiment we dynamically generate YANG data models and NETCONF RPCs from device profiles written in JSON and map these to configuration commands in the lightweight MQTT protocol.},
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