Servicios Personalizados
Revista
Articulo
Inglés (pdf)
Articulo en XML
Referencias del artículo
Traducción automática
Enviar articulo por emailIndicadores
Citado por SciELO 
Accesos
Links relacionados
Citado por Google 
Similares en
SciELO 
Similares en Google
Compartir
Permalink
Tecnura
versión impresa ISSN 0123-921X
Resumen
MARTINEZ-VALENCIA, Jorge Luis; HOLGUIN-LONDONO, Mauricio y RAMIREZ-VANEGAS, Carlos Alberto. Methodology for the Synthesis of Automata in the Planning of Movements for Autonomous Systems with Multiple Agents. Tecnura [online]. 2021, vol.25, n.70, pp.46-70. Epub 09-Feb-2022. ISSN 0123-921X. https://doi.org/10.14483/22487638.17131.
Objective:
To present a methodology for motion planning in autonomous systems with multiple agents.
Methodology:
The physical behavior of a team of autonomous navigation systems is parameterized and defined. Then, a control policies algorithm is described and implemented, which interprets these descriptions, which are converted into LTL formulas, and a model is generated which allows making automatic abstractions. From generic solution configurations, the case of multiple robots with a single task in an environment with fixed obstacles is derived. The methodology is validated in different scenarios, and the results are analyzed.
Results:
The proposed methodology for motion planning in autonomous systems with multiple agents combines two state-of-the-art techniques, thus allowing to mitigate the combinatorial explosion of states in traditional approaches.
Conclusions:
The proposed methodology solves the automaton synthesis problem for high-level control with task changes during the execution. Under certain criteria, the problem of combinatorial explosion of states associated with these systems is mitigated. The solution is optimal with regard to the number of transactions performed by the team members.
Funding:
Universidad Tecnológica de Pereira
Palabras clave : Büchi automata; formal languages; linear temporal logic (LTL); motion planning; Petri networks; cooperative systems with multiple agents.
