Neural Network-based End-effector Force Estimation for Mobile Manipulator on Simulated Uneven Surfaces

2022 International Conference on Software, Telecommunications and Computer Networks (SoftCOM) Pub Date : 2022-09-22 DOI:10.23919/softcom55329.2022.9911383

Stanko Kružić, J. Musić, I. Stančić, V. Papić

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Abstract

Mobile robotic manipulators often interact with other robots, humans or the environment in indoor and outdoor scenarios. In many cases, end-effector forces need to be known to give feedback about task completion. The mobile base might be titled due to the uneven surface on which the mobile base is positioned. The paper presents the approach to estimating end-effector forces based on neural networks in such cases. The estimates are inferred based on the force sensor mounted under the robot's base and the knowledge of the tilt angle. The robot's dynamic model does not have to be known since it is learned from data during neural network training. The dataset for this research was obtained in simulation. The angle between the robot and the surface changed to simulate a change in surface slope that a mobile manipulator might encounter during the execution of real-world tasks. The trained neural network shows good performance no matter the angle between the base and the ground. It showed an RMSE of 0.302 N (on the test set). Furthermore, there was no significant difference when comparing RMSE across all test data with test data obtained on a per-angle basis, demonstrating the effectiveness of the proposed approach.

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基于神经网络的移动机械臂模拟不平整表面末端力估计

在室内和室外场景中，移动机器人经常与其他机器人、人或环境相互作用。在许多情况下，需要知道末端执行器的力来给出任务完成的反馈。由于所述移动底座所在的表面不平整，所述移动底座可能被冠以标题。本文提出了一种基于神经网络的末端执行器力估计方法。该估计是基于安装在机器人基座下的力传感器和倾斜角的知识来推断的。机器人的动态模型不需要知道，因为它是在神经网络训练过程中从数据中学习的。本研究的数据集是通过仿真得到的。机器人与表面之间的角度变化，以模拟移动机械手在执行实际任务时可能遇到的表面斜率变化。训练后的神经网络无论基座与地面的夹角如何，都表现出良好的性能。它显示RMSE为0.302 N(在测试集上)。此外，当比较所有测试数据的RMSE与以每个角度为基础获得的测试数据时，没有显着差异，证明了所提出方法的有效性。

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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2022 International Conference on Software, Telecommunications and Computer Networks (SoftCOM)

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