Two-Layer Resource-Balanced Backbone Communication Network Modeling for Power Protection Services

To solve the resource optimization issue for the related power-protection services under the background of Energy Internet, this paper proposes a two-layer resource-balanced optimization Model in the planning design of the power backbone communication network. Firstly, the communication requirements of the related power-protection service are analyzed based on the description of the power-protection system. Secondly, the proposed resource-balanced model is formulated as a mathematic optimization model based on Optical Transport Network layered architecture, which comprises the optimal resource-balanced funciton and related restraints considering both the routing hops and the Quality-of-Service requirements. Finally, the simulation experiment is implemented to analyze the resource-balanced performance of the proposed model using the typical power-protection communication network topology. Simulation Results illustrate that the proposed model is of effectiveness for the power-nrotection services.