Plane-based grid map: A robot-centric mapping algorithm for wheel-legged rover motion planning in unstructured terrain environments

Zhu, Bike; He, Jun; Sun, Jiaze; Xing, Yan; Gao, Feng

doi:10.1177/09544062221104376

Cited by 3 publications

(1 citation statement)

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“…Based on our previous works of the terrain-adaptive wheeled-legged (TAWL) rover on its design [28] and mapping method [29], this paper presents a kinematics modeling and hybrid locomotion planning framework for the rover. In the process of building the environment representation map, a plane cluster algorithm is proposed to construct unstructured terrains.…”

Section: Introductionmentioning

confidence: 99%

Kinematic modeling and hybrid motion planning for wheeled-legged rovers to traverse challenging terrains

Zhu,

He,

Sun

2023

Robotica

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This paper presents a kinematics modeling and hybrid motion planning framework for wheeled-legged rovers. It is a unified solution for wheeled-legged rovers to traverse multiple challenging terrains using hybrid locomotion. A kinematic model is first established to describe the rover’s motions. Then, a hybrid motion planning framework is proposed to determine the rover’s gait patterns and parameterize the legs’ and the body’s trajectories. Furthermore, an optimization algorithm based on B-spline is utilized to minimize the motors’ energy dissipation and generate smooth trajectories. The wheeled and legged hybridization allows the rover for faster locomotion while maintaining high stability. Besides, it also improves the rover’s ability to overcome obstacles. Prototype experiments are carried out in more complex environments to verify the rover’s flexibility and maneuverability to traverse irregular terrains. The proposed algorithm reduces the swing amplitude by 83.3% compared to purely legged locomotion.

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Section: Introductionmentioning

confidence: 99%