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Latin American applied research
versión impresa ISSN 0327-0793
Resumen
KORAYEM, M. H.; VATANJOU, H. y AZIMIRAD, V.. New hierarchical method for path planning of large-scale robots. Lat. Am. appl. res. [online]. 2011, vol.41, n.3, pp.225-232. ISSN 0327-0793.
In this paper, a new coordination method based on non-linear hierarchical control for large-scale robots is presented. The large-scale system is considered as combination of subsystems so that each subsystem has interaction with others. The procedure is to use interaction prediction principle with optimal control for each subsystem. At the first level, applying optimal control principle to each subsystem with guessed interaction variables results in Two Point Boundary Value Problem (TPBVP). By solving TPBVP the new interaction parameters are generated. At the second level, the resulted interactions are exchanged between subsystems and the interaction variables are improved within interaction prediction principle. Difference between guessed and achieved interaction in each step is used in general cost function to coordinate subsystems. Hence continuing the algorithm causes to converging the interactions to each other. The new method results in less time by parallel processing for each subsystem, and has less sensitivity for different initial guess in comparison with centralized use of optimal control for large-scale robots because of using small sized sub-systems which is a step toward real-time planning of mobile manipulators, also the proposed method has the ability to solve problems with inseparable cost functions which is an important benefit for robots path planning in presence of obstacles and specified path for end-effector. The method is simulated and verified by previous work in this area. The simulation results show effectiveness of proposed method for large-scale robots. The approaches validity is checked via simulations and experiments with a 2-link nonholonomic mobile manipulator named Scout.
Palabras clave : Hierarchical Control; Large-scale Systems; Optimal Control; Mobile Robot; Nonholonomic.