Biblio

Several cloud providers have started to offer specific data management services by responding to the new trend called the Internet of Things (IoT). In recent years, we have already seen that cloud computing has managed to serve IoT needs for data retrieval, processing and visualization transparent for the user side. IoT-Cloud systems for smart cities and smart regions can be very complex, therefore their design and analysis should be supported by means of simulation. Nevertheless, the models used in simulation environments should be as close as to the real world utilization to provide reliable results. To facilitate such simulations, in earlier works we proposed an IoT trace archiving service called SUMMON that can be used to gather real world datasets, and to reuse them for simulation experiments. In this paper we provide an extension to SUMMON with an automated web crawling service that gathers IoT and sensor data from publicly available websites. We introduce the architecture and operation of this approach, and exemplify it utilization with three use cases. The provided archiving solution can be used by simulators to perform realistic evaluations.

Software-defined networking (SDN) enables efficient networkmanagement. As the technology matures, utilities are looking to integrate those benefits to their operations technology (OT) networks. To help the community to better understand and evaluate the effects of such integration, we develop DSSnet, a testing platform that combines a power distribution system simulator and an SDN-based network emulator for smart grid planning and evaluation. DSSnet relies on a container-based virtual time system to achieve efficient synchronization between the simulation and emulation systems. To enhance the system scalability and usability, we extend DSSnet to support a distributed controller environment. To enhance system fidelity, we extend the virtual time system to support kernel-based switches. We also evaluate the system performance of DSSnet and demonstrate the usability of DSSnet with a resilient demand response application case study.