Abstract:

A complex network model of air fleet formation is provided, and the influence of network topology on synchronizability of combat network under conditions of unchanged node dynamics and coupling strength is studied based on complex networks selfsynchronization theory. Then, a combat network selfsynchronization optimal model to maximize the synchronizability and efficiency of leveled C2 nodes of networks constrained by C2 structure and battlefields is proposed. This model is solved by the genetic algorithm through adjusting the communication structure of combat nodes. Numerical simulations show that the obtained optimal network has better synchronization and consensus property in terms of the convergence speed and network eigenvalues.