机器人的无线驱动和控制方法:多频微波

IF 6.8 Q1 AUTOMATION & CONTROL SYSTEMS
Yongze Li, Jianyu Wu, Lijun Zhao, Zhiguang Xing, Jianwen Zhao
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引用次数: 0

摘要

微波(MW)驱动策略有可能通过相控阵技术提供穿透障碍物、选择性通电、波聚焦和非机械转向等功能,在狭窄环境中具有独特的应用前景。实现多自由度(MDOF)控制是为先进的微波驱动机器人开发运动策略的关键。然而,利用无线射频对机器人进行多自由度控制至今仍是一项挑战。本文首先介绍了在复杂的非金属通道环境中利用多频微波无线驱动和控制毫米级蠕动管道机器人(直径 4 毫米;长度 30 毫米;重量 0.39 克)的实例。在这里,采用形状记忆合金弹簧与无源导线(其长度取决于微波的频率)相结合,形成选择性控制机器人组件,并利用硅橡胶复制技术实现机器人的小型化。为致动器建立了单极天线模型,并利用天线理论完善了其结构。这使得机器人能够在多个兆赫频率(2.4、4 和 5.9 GHz)下成功实现 MDOF 控制。管道机器人由管道外的兆瓦提供动力,在直径为 5 毫米的管道中实现水平、垂直和弯曲运动。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

A Wireless Drive and Control Method for Robots: Multifrequency Microwaves

A Wireless Drive and Control Method for Robots: Multifrequency Microwaves

Microwave (MW)-driven strategies could potentially offer transmissivity through obstacles, selective energization, wave-focusing, and nonmechanical steering via phased-array technologies, which have unique application prospects in confined environments. Implementing multidegree of freedom (MDOF) control is the key to developing motion strategies for advanced MW-driven robots. However, the use of MWs for MDOF control of robots has so far remained a challenge. This article first presents examples of wireless driving and controlling millimeter-scale peristaltic pipeline robots (diameter, 4 mm; length, 30 mm; weight, 0.39 g) utilizing multifrequency MWs in complex nonmetal channel environments. Herein, shape memory alloy springs combined with passive wires, whose length depends on the frequencies of MWs, are adopted to form selectively controlled robot components, and silicon rubber replica technology is utilized to achieve miniaturization of the robot. The monopole antenna model is developed for the actuator, and its structure is refined using antenna theory. This allows the successfully achievement of MDOF control of the robot at several MW frequencies (2.4, 4, and 5.9 GHz). Powered by MWs from outside the pipe, the pipeline robot achieves horizontal, vertical, and curved motions in a pipe with a diameter of 5 mm.

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CiteScore
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