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Abstract

This paper proposes a coverage problem of multi-agent systems, in which a group of agents enter a given region at different times and are required to cover the given region cooperatively. The focus of this paper is to solve the coverage problem of multi-agent systems with a non-convex optimization approach. By introducing appropriate assumptions, a gradient-based control law is designed based on the information of the previous stage agents. However, the performance index of each stage is nonlinear and generally non-convex and may have multiple local optima to which a gradient may converge. Thus, an effective boosting function, which is used to prevent the non-convex optimization problem getting into local optimum, is shown. It is proved in the sense of Lyapunov that the global coverage for the multi-agent systems with different entry time for coming into the given region can be achieved. Numerical simulations with cooperative control of industries subsystems show the effectiveness of the proposed approach.

Keywords

Coverage multi-agent system effective boosting function non-convex different times

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Coverage control of multi-agent systems with different entry times

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