화학공학소재연구정보센터
IEEE Transactions on Automatic Control, Vol.61, No.3, 817-822, 2016
Distributed Nonlinear MPC of Multi-Agent Systems With Data Compression and Random Delays
This note proposes an Input to State practically Stable (ISpS) formulation of distributed nonlinear model predictive controller (NMPC) for formation control of constrained autonomous vehicles in presence of communication bandwidth limitation and transmission delays. Planned trajectories are compressed using neural networks resulting in considerable reduction of data packet size, while being robust to propagation delays and uncertainty in neighbors' trajectories. Collision avoidance is achieved by means of spatially filtered potential field. Analytical results proving ISpS and generalized small gain conditions are presented for both strongly-and weakly-connected networks, and illustrated by simulations.