Uncertainty-aware automated assessment of the arm impedance with upper-limb exoskeletons.

IF 2.6 4区 计算机科学 Q3 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Frontiers in Neurorobotics Pub Date : 2023-08-24 eCollection Date: 2023-01-01 DOI:10.3389/fnbot.2023.1167604
Samuel Tesfazgi, Ronan Sangouard, Satoshi Endo, Sandra Hirche
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引用次数: 0

Abstract

Providing high degree of personalization to a specific need of each patient is invaluable to improve the utility of robot-driven neurorehabilitation. For the desired customization of treatment strategies, precise and reliable estimation of the patient's state becomes important, as it can be used to continuously monitor the patient during training and to document the rehabilitation progress. Wearable robotics have emerged as a valuable tool for this quantitative assessment as the actuation and sensing are performed on the joint level. However, upper-limb exoskeletons introduce various sources of uncertainty, which primarily result from the complex interaction dynamics at the physical interface between the patient and the robotic device. These sources of uncertainty must be considered to ensure the correctness of estimation results when performing the clinical assessment of the patient state. In this work, we analyze these sources of uncertainty and quantify their influence on the estimation of the human arm impedance. We argue that this mitigates the risk of relying on overconfident estimates and promotes more precise computational approaches in robot-based neurorehabilitation.

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上肢外骨骼手臂阻抗的不确定性自动评估。
为每个患者的特定需求提供高度个性化对于提高机器人驱动的神经康复的实用性是非常宝贵的。对于所需的治疗策略定制,精确可靠地估计患者的状态变得很重要,因为它可以用于在训练期间持续监测患者并记录康复进展。可穿戴机器人已经成为这种定量评估的一种有价值的工具,因为驱动和传感是在关节水平上进行的。然而,上肢外骨骼引入了各种不确定性来源,这些不确定性主要源于患者和机器人设备之间物理界面的复杂交互动力学。在对患者状态进行临床评估时,必须考虑这些不确定性来源,以确保估计结果的正确性。在这项工作中,我们分析了这些不确定性的来源,并量化了它们对人体手臂阻抗估计的影响。我们认为,这降低了依赖过度自信估计的风险,并促进了基于机器人的神经康复中更精确的计算方法。
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来源期刊
Frontiers in Neurorobotics
Frontiers in Neurorobotics COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCER-ROBOTICS
CiteScore
5.20
自引率
6.50%
发文量
250
审稿时长
14 weeks
期刊介绍: Frontiers in Neurorobotics publishes rigorously peer-reviewed research in the science and technology of embodied autonomous neural systems. Specialty Chief Editors Alois C. Knoll and Florian Röhrbein at the Technische Universität München are supported by an outstanding Editorial Board of international experts. This multidisciplinary open-access journal is at the forefront of disseminating and communicating scientific knowledge and impactful discoveries to researchers, academics and the public worldwide. Neural systems include brain-inspired algorithms (e.g. connectionist networks), computational models of biological neural networks (e.g. artificial spiking neural nets, large-scale simulations of neural microcircuits) and actual biological systems (e.g. in vivo and in vitro neural nets). The focus of the journal is the embodiment of such neural systems in artificial software and hardware devices, machines, robots or any other form of physical actuation. This also includes prosthetic devices, brain machine interfaces, wearable systems, micro-machines, furniture, home appliances, as well as systems for managing micro and macro infrastructures. Frontiers in Neurorobotics also aims to publish radically new tools and methods to study plasticity and development of autonomous self-learning systems that are capable of acquiring knowledge in an open-ended manner. Models complemented with experimental studies revealing self-organizing principles of embodied neural systems are welcome. Our journal also publishes on the micro and macro engineering and mechatronics of robotic devices driven by neural systems, as well as studies on the impact that such systems will have on our daily life.
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