A new class of finite-time nonlinear consensus protocols for multi-agent systems
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Abstract
This paper is devoted to investigating the finite-time consensus problem for a multi-agent system in networks with undirected topology. A new class of global continuous time-invariant consensus protocols is constructed for each single-integrator agent dynamics with the aid of Lyapunov functions. In particular, it is shown that the settling time of the proposed new class of finite-time consensus protocols is upper bounded for arbitrary initial conditions. This makes it possible for network consensus problems that the convergence time is designed and estimated offline for a given undirected information flow and a group volume of agents. Finally, a numerical simulation example is presented as a proof of concept.
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Keywords
- Class (philosophy)
- Nonlinear system
- Multi-agent system
- Consensus
- Computer science
- Protocol (science)
- Uniform consensus
- Mathematics
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