Mendez Gonzalez, AntonioAntonioMendez GonzalezHoffmann, ChristianChristianHoffmannWerner, HerbertHerbertWerner2020-09-222020-09-222015-02-08IEEE Conference on Decision and Control, CDC: 7402639 (2015-02-08)http://hdl.handle.net/11420/7371A distributed controller design is presented for a set of agents with non-holonomic dynamics that communicate through a directed and switching topology. The design is carried out in the framework of LPV-LFT control. The objective is to only use relative (local) information to reach formation consensus in Cartesian coordinates, while the agents move along a desired path. An analysis shows that a moving formation of agents achieve orientation consensus naturally. A novel methodology from the literature is employed to solve the problem, where feasibility of a small set of LMIs provides guarantees of stability, performance and robustness. Simulation results of a leader-follower example illustrate and confirm the applicability of the approach.en0743-1546201527922797Conference Paper10.1109/CDC.2015.7402639Other