A Comprehensive Review of Haptic Gloves: Advances, Challenges, and Future Directions

2023 Second International Conference on Electronics and Renewable Systems (ICEARS) Pub Date : 2023-03-02 DOI:10.1109/ICEARS56392.2023.10085607

Shanmugam M, Kanagaraj Venusamy, S. S., Srivatsan S, Naresh Kumar O

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引用次数: 2

Abstract

The sense of touch and feel is an important asset to the human beings in all aspects across a variety of fields. For a long time, it has been almost impossible to mimic the sense of touch i.e. the natural feedback. Devices that had been developed have been based around piezo electric, Hall Effect sensors, and a combination of sensors and actuators to sense and replicate the feedback. To a certain extent, they have laid the foundation for the field of haptics. Haptics initially were limited to the vibrotactile responses, which were the ones commonly seen in the modern smartphone. Further research and development has led to it being closer than ever to mimic the sense of touch. Several devices were created by incorporating the field of haptics with existing design and devices. One such device is the Haptic glove. A haptic glove is a cutting-edge technology that allows human operators to physically feel the sensation of touch and force feedback when remotely controlling robots or other devices. These gloves are designed to mimic the sense of touch, allowing the operator to feel the shape, texture, and rigidity of the object they are manipulating through the robot. The use of haptic gloves in robotic teleoperation has been found to improve the precision and accuracy of remote tasks, as well as reducing the cognitive load on the operator. This technology can be adopted in field such as manufacturing, surgery, and space exploration. For example, in manufacturing, haptic gloves can be used to remotely operate machinery or perform inspections on hard-to-reach areas, while in surgery; haptic gloves can enable surgeons to perform remote surgeries with greater precision and control. In space exploration, haptic gloves can be used to remotely control robots for tasks such as sample collection and maintenance. Future developments in haptic technology could lead to even more advanced and realistic haptic feedback, further enhancing the capabilities of robotic teleoperation.

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触觉手套的综合综述:进展、挑战和未来方向

触觉和感觉是人类在各个领域的重要资产。很长一段时间以来，模仿触觉(即自然反馈)几乎是不可能的。已经开发的设备是基于压电，霍尔效应传感器，以及传感器和执行器的组合来感知和复制反馈。在一定程度上，他们为触觉领域奠定了基础。触觉最初仅限于振动触觉反应，这是现代智能手机中常见的反应。进一步的研究和发展使它比以往任何时候都更接近于模仿触觉。通过将触觉领域与现有设计和设备相结合，创造了几种设备。触觉手套就是这样一种设备。触觉手套是一项尖端技术，可以让人类操作员在远程控制机器人或其他设备时感受到触摸和力反馈的感觉。这些手套是为了模仿触觉而设计的，允许操作员通过机器人感受到他们正在操纵的物体的形状、质地和硬度。在机器人远程操作中使用触觉手套可以提高远程任务的精度和准确性，并减少操作者的认知负荷。该技术可应用于制造业、外科手术、太空探索等领域。例如，在制造业中，触觉手套可用于远程操作机械或在手术中对难以到达的区域进行检查;触觉手套可以使外科医生以更高的精度和控制进行远程手术。在太空探索中，触觉手套可用于远程控制机器人执行诸如样品收集和维护之类的任务。触觉技术的未来发展可能会导致更先进和真实的触觉反馈，进一步提高机器人的远程操作能力。

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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2023 Second International Conference on Electronics and Renewable Systems (ICEARS)

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