An important goal of smart grid is to leverage modern digital communication infrastructure to help control power systems more effectively.As more and more Internet of Things (IoT) devices with measurement and/or control capability are designed and deployed for a more stable and efficient power system, the role of communication network has become more important.To evaluate the performance of control algorithms for inter-dependent power grid and communication network, a test bed that could simulate inter-dependent power grid and communication network is desirable.
In this paper, we demonstrate the design and implementation of a novel co-simulator, which would effectively evaluate IoT-aided algorithms for scheduling beer button down shirts for men the jobs of electrical appliances.There are three major features of our co-simulator: 1) large-scale test is achieved by distributed modules that are designed based on a Turing-indistinguishable superdry baseball top approach; 2) remote servers or test devices are controlled by local graphical user interface (we only need to configure the simulator on a local server); 3) a software virtual network approach is employed to emulate real networks, which significantly reduces the cost of real-world test beds.To evaluate our co-simulator, two energy consumption scheduling algorithms are implemented.
Experimental results show that our co-simulator could effectively evaluate these methods.Thus our co-simulator is a powerful tool for utility companies and policy makers to commission novel IoT devices or methods in future smart grid infrastructure.