Robust Motion Control of Robotic Systems with Environmental Interaction via Data-Driven Inversion of CPG

2020 20th International Conference on Control, Automation and Systems (ICCAS) Pub Date : 2020-10-13 DOI:10.23919/ICCAS50221.2020.9268377

Sangyul Park, Hasun Lee, Dongjun Lee

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Abstract

We propose CPG (central pattern generator) based robot control framework constructed based on: 1) the inverse model of the CPG that directly encodes resultant body motion of the robot in CPG parameters; and 2) the CPG parameter adaptation law that enforces robustness of the controller. These two components behaves as feedforward and feedback control for the CPG controlled robot, enabling us to achieve fast and robust generation of a desired body motion for robotic systems operated within complex environmental interaction. The inverse CPG model is constructed based on neural network along with autoencoder to efficiently deal with the dimension decrease from input to output of the model. Also, the CPG parameter adaptation is done with a concept of backpropagation, which is enabled by the adoption of smooth activation function for the inverse CPG model. For the development and verification of the proposed framework, simulation is conducted with two robotic systems, snake-like robot and pivotboard system.

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基于CPG数据驱动反演的环境交互作用下机器人系统鲁棒运动控制

我们提出了基于中心模式生成器(CPG)的机器人控制框架，该框架基于:1)CPG的逆模型，该模型将机器人的最终身体运动直接编码在CPG参数中;2)增强控制器鲁棒性的CPG参数自适应律。这两个组件分别作为CPG控制机器人的前馈和反馈控制，使我们能够在复杂的环境相互作用下实现机器人系统所需身体运动的快速和鲁棒生成。基于神经网络和自编码器构造了CPG逆模型，有效地解决了模型从输入到输出的降维问题。此外，CPG参数的自适应采用了反向传播的概念，通过对逆CPG模型采用平滑激活函数来实现。为了开发和验证所提出的框架，采用蛇形机器人和透视板系统两种机器人系统进行了仿真。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2020 20th International Conference on Control, Automation and Systems (ICCAS)

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