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Step-by-step guide for building and running FNCS2, ns-3, GridLAB-D, and MATPOWER.

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FNCS-Tutorial

Welcome to the Framework for Network Co-Simulation (FNCS) Tutorial. This tutorial features four step-by-step guides that target the basics ('two-simulators'), a modestly complex transactive control application ('GridLAB-D+ns-3'), and a fully-featured transactive control application with multiple feeders, retail markets, and a wholesale market inside a transmission-level optimal power flow ('large').

The two-simulators demo showcases the fundamentals of running co-simulations using the FNCS framework. We will walk you through installing FNCS and its dependencies, CZMQ and ZeroMQ, as well as how to run two sample simulators within the co-simulation platform provided by FNCS. The code samples provided will illustrate the principles of co-simulation including message exchange and clock synchronization.

The GridLAB-D+ns-3 demo will walk you through installing FNCS, GridLAB-D, ns-3, and all prerequisite software. This complex example application demonstrates a real use case of transactive control, exchanging market prices and bids through a simulated network. A single GridLAB-D instance simulates a single feeder and market, where the bids and price signals are routed through the communication network modeled by ns-3.

The large demo will walk you through installing FNCS, GridLAB-D, ns-3, MATPOWER, and all prerequisite software. This complex example application demonstrates a real use case of transactive control, exchanging market prices and bids through a simulated network. Multiple GridLAB-D instances individually simulate a single feeder and market, while the cumulative demand of each feeder is exchanged with a MATPOWER optimal power flow solver at the tranmission level.

We hope you find these demonstration cases useful. Please use the GitHub Issues to notify us of any problems with the tutorial text.

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Step-by-step guide for building and running FNCS2, ns-3, GridLAB-D, and MATPOWER.

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