AI Article Synopsis
- The paper presents an adaptive locomotion control method for a hexapod robot, using a 3D two-layer artificial central pattern generator (CPG) network that mimics biological control systems.
- The first layer creates basic locomotion patterns through kinematic analysis, while the second layer adapts the robot's limb behavior based on environmental changes.
- A reinforcement learning approach fine-tunes the CPG parameters for better adaptability, and both simulations and real-world experiments confirm the method’s effectiveness.
Article Abstract
In this paper, an adaptive locomotion control approach for a hexapod robot is proposed. Inspired from biological neuro control systems, a 3D two-layer artificial center pattern generator (CPG) network is adopted to generate the locomotion of the robot. The first layer of the CPG is responsible for generating several basic locomotion patterns and the functional configuration of this layer is determined through kinematics analysis. The second layer of the CPG controls the limb behavior of the robot to adapt to environment change in a specific locomotion pattern. To enable the adaptability of the limb behavior controller, a reinforcement learning (RL)-based approach is employed to tune the CPG parameters. Owing to symmetrical structure of the robot, only two parameters need to be learned iteratively. Thus, the proposed approach can be used in practice. Finally, both simulations and experiments are conducted to verify the effectiveness of the proposed control approach.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7870720 | PMC |
| http://dx.doi.org/10.3389/fnbot.2021.627157 | DOI Listing |
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