Developments in robotic teleoperation

Rob Bogue
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Abstract

Purpose

The aim of this article is to provide details of recent technological developments in robotic teleoperation.

Design/methodology/approach

Following a short introduction, the two main sections of this article provide examples of recent research involving the application of virtual reality and haptic technologies, respectively, to robotic teleoperation. Brief conclusions are drawn.

Findings

Teleoperation systems are being developed which incorporate virtual reality and haptic feedback technologies. Those using virtual reality seek to enhance the operator’s feeling of immersion in the scene and improve their situation awareness and trials involving diverse tasks illustrate that the technology can achieve these aims and overcome many limitations of traditional systems. Haptic feedback further enhances the degree of operator involvement and control and is now being adopted in commercial minimally invasive surgical systems. Systems which combine virtual reality with haptic feedback are being developed and have the potential to allow operators to conduct increasingly complex tasks.

Originality/value

Through reference to recent research, this illustrates how virtual reality and haptic technologies are enhancing the capabilities of robotic teleoperation.

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机器人远程操作的发展
设计/方法/方法在简短的引言之后,本文的两个主要部分分别举例说明了虚拟现实和触觉技术在机器人远程操作中的应用。研究结果目前正在开发融合了虚拟现实和触觉反馈技术的远程操纵系统。使用虚拟现实技术的系统旨在增强操作员对场景的身临其境感,并提高他们对情境的感知能力,涉及各种任务的试验表明,该技术可以实现这些目标,并克服传统系统的许多局限性。触觉反馈进一步提高了操作员的参与和控制程度,目前已被商业微创手术系统所采用。将虚拟现实与触觉反馈相结合的系统正在开发中,有可能让操作员执行越来越复杂的任务。原创性/价值通过参考最新研究,本研究说明了虚拟现实和触觉技术如何增强机器人远程操作的能力。
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