Title :
Distributed consensus of multi-agent systems with finite-level quantization
Author :
Li, Tao ; Fu, Minyue ; Xie, Lihua ; Zhang, Ji-Feng
Author_Institution :
Key Lab. of Syst. & Control, Acad. of Math. & Syst. Sci., Beijing, China
Abstract :
This paper is concerned with consensus control of undirected networks of discrete time first order agents under quantized communication. A distributed protocol is proposed based on dynamic encoding and decoding with finite level uniform quantizers. It is shown that under the protocol designed, for a connected network, average-consensus can be achieved with an exponential convergence rate based on a single-bit information exchange between each pair of adjacent nodes at each time step. As the number of agents increases, the explicit form of the asymptotic convergence rate is given in relation to the number of nodes, the number of the quantization levels and the ratio between the algebraic connectivity and the spectral radius of the Laplacian of the communication graph.
Keywords :
Laplace equations; convergence; discrete time systems; distributed control; multi-agent systems; quantisation (signal); telecommunication control; Laplacian algebraic connectivity; Laplacian spectral radius; asymptotic convergence rate; communication graph; discrete time first order agent; distributed protocol; dynamic decoding; dynamic encoding; exponential convergence rate; finite level quantization; multi-agent systems distributed consensus; quantized communication; single bit information exchange; undirected networks consensus control; Channel capacity; Communication channels; Communication system control; Control systems; Convergence; Decoding; Distributed control; Multiagent systems; Protocols; Quantization;
Conference_Titel :
Asian Control Conference, 2009. ASCC 2009. 7th
Conference_Location :
Hong Kong
Print_ISBN :
978-89-956056-2-2
Electronic_ISBN :
978-89-956056-9-1
