Abstract

The finite-time and fixed-time consensus of multi-agent systems with bounded unknown acceleration was studied. Problems of double integrator dynamics under a leader with bounded unknowns were considered. Firstly, the protocol of pinning control was proposed. Then with the Lyapunov stability theory and the Filippov differential equations with discontinuous right hand sides, the sufficient conditions were provided to guarantee multi-agent consensus in finite time and fixed time. Finally, the numerical simulation of pinning consensus of multi-agent systems illustrates the effectiveness of the conditions.

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