Macro Fiber Composite-Actuated Soft Robotic Fish: A Gray Box Model-Predictive Motion Planning Strategy Under Limited Actuation.

IF 6.4 2区 计算机科学 Q1 ROBOTICS Soft Robotics Pub Date : 2023-10-01 Epub Date: 2023-03-23 DOI:10.1089/soro.2022.0061
Arthur Silva Barbosa, Maíra Martins da Silva
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引用次数: 2

Abstract

This work experimentally investigates a model-predictive motion planning strategy to impose oscillatory and undulation movements in a macro fiber composite (MFC)-actuated robotic fish. Most of the results in this field exploit sinusoidal input signals at the resonance frequency, which reduces the device's maneuverability. Differently, this work uses body/caudal fin locomotion patterns as references in a motion planning strategy formulated as a model-based predictive control (MPC) scheme. This open-loop scheme requires the modeling of the device, which is accomplished by deriving a gray box state-space model using experimental modal data. This state-space model considers the electromechanical coupling of the actuators. Based on the references and the model, the MPC scheme derives the input signals for the MFC actuators. An experimental campaign is carried out to verify two references for mimicking the locomotion patterns of a fish under limited actuation. The experimental results confirm the motion planning scheme's capability to impose oscillatory and undulation movements.

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宏纤维复合材料驱动的软体机器人鱼:有限驱动下的灰盒模型预测运动规划策略。
这项工作实验研究了一种模型预测运动规划策略,以在宏观纤维复合材料(MFC)驱动的机器鱼中施加振荡和波动运动。该领域的大多数结果都利用了谐振频率下的正弦输入信号,这降低了设备的可操作性。不同的是,这项工作使用身体/尾鳍运动模式作为运动规划策略的参考,该策略被制定为基于模型的预测控制(MPC)方案。这种开环方案需要对设备进行建模,这是通过使用实验模态数据导出灰盒状态空间模型来实现的。该状态空间模型考虑了致动器的机电耦合。基于参考文献和模型,MPC方案导出了MFC致动器的输入信号。进行了一项实验活动,以验证在有限驱动下模拟鱼类运动模式的两个参考文献。实验结果证实了运动规划方案施加振荡和波动运动的能力。
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来源期刊
Soft Robotics
Soft Robotics ROBOTICS-
CiteScore
15.50
自引率
5.10%
发文量
128
期刊介绍: Soft Robotics (SoRo) stands as a premier robotics journal, showcasing top-tier, peer-reviewed research on the forefront of soft and deformable robotics. Encompassing flexible electronics, materials science, computer science, and biomechanics, it pioneers breakthroughs in robotic technology capable of safe interaction with living systems and navigating complex environments, natural or human-made. With a multidisciplinary approach, SoRo integrates advancements in biomedical engineering, biomechanics, mathematical modeling, biopolymer chemistry, computer science, and tissue engineering, offering comprehensive insights into constructing adaptable devices that can undergo significant changes in shape and size. This transformative technology finds critical applications in surgery, assistive healthcare devices, emergency search and rescue, space instrument repair, mine detection, and beyond.
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