The quadruped robots represent a rapidly growing field in the industrial world due to their various applications in supporting everyday and hazardous human activities. Despite significant research contributions, gait optimization remains a challenging task. Typically, gait patterns are inspired by mimicking nature but all short of replicating the flexibility and articulated adaptability observed in animals. This paper introduces a new method for optimizing gait and designing uadruped robots offline. This approach takes into account the dynamics of the entire system, including leg masses, by employing genetic algorithms and nonlinear programming techniques. The results of this new technique enable the exploration of gait patterns that can accommodate the rigidity of robots while minimizing the energy cost of locomotion.
Trotting Gait Optimization Method for a Quadruped Robot / Zanotti, Alessandro; Laurenza, Maicol; Pepe, Gianluca; Carcaterra, Antonio. - (2024), pp. 609-614. (Intervento presentato al convegno 2024 European Control Conference (ECC) tenutosi a Stockholm, Sweden) [10.23919/ecc64448.2024.10591221].
Trotting Gait Optimization Method for a Quadruped Robot
Zanotti, Alessandro
;Laurenza, Maicol;Pepe, Gianluca;Carcaterra, Antonio
2024
Abstract
The quadruped robots represent a rapidly growing field in the industrial world due to their various applications in supporting everyday and hazardous human activities. Despite significant research contributions, gait optimization remains a challenging task. Typically, gait patterns are inspired by mimicking nature but all short of replicating the flexibility and articulated adaptability observed in animals. This paper introduces a new method for optimizing gait and designing uadruped robots offline. This approach takes into account the dynamics of the entire system, including leg masses, by employing genetic algorithms and nonlinear programming techniques. The results of this new technique enable the exploration of gait patterns that can accommodate the rigidity of robots while minimizing the energy cost of locomotion.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
