Litcius/Paper detail

AQuRo: A Cat-like Adaptive Quadruped Robot With Novel Bio-Inspired Capabilities

Azhar Aulia Saputra, Naoyuki Takesue, Kazuyoshi Wada, Auke Jan Ijspeert, Naoyuki Kubota

2021Frontiers in Robotics and AI26 citationsDOIOpen Access PDF

Abstract

There are currently many quadruped robots suited to a wide range of applications, but traversing some terrains, such as vertical ladders, remains an open challenge. There is still a need to develop adaptive robots that can walk and climb efficiently. This paper presents an adaptive quadruped robot that, by mimicking feline structure, supports several novel capabilities. We design a novel paw structure and several point-cloud-based sensory structures incorporating a quad-composite time-of-flight sensor and a dual-laser range finder. The proposed robot is equipped with physical and cognitive capabilities which include: 1) a dynamic-density topological map building with attention model, 2) affordance perception using the topological map, and 3) a neural-based locomotion model. The novel capabilities show strong integration between locomotion and internal-external sensory information, enabling short-term adaptations in response to environmental changes. The robot performed well in several situations: walking on natural terrain, walking with a leg malfunction, avoiding a sudden obstacle, climbing a vertical ladder. Further, we consider current problems and future development.

Topics & Concepts

Computer scienceRobotClimbClimbingObstacleTerrainArtificial intelligenceGaitSimulationComputer visionHuman–computer interactionEngineeringLawEcologyPhysiologyPolitical scienceAerospace engineeringStructural engineeringBiologyRobotic Locomotion and ControlModular Robots and Swarm IntelligenceUnderwater Vehicles and Communication Systems