Integrating Virtual, Mixed, and Augmented Reality into Remote Robotic Applications: A Brief Review of Extended Reality-Enhanced Robotic Systems for Intuitive Telemanipulation and Telemanufacturing Tasks in Hazardous Conditions

There is an increasingly urgent need for humans to interactively control robotic systems to perform increasingly precise remote operations, concomitant with the rapid development of space exploration, deep-sea discovery, nuclear rehabilitation and management, and robotic-assisted medical devices. The potential high value of medical telerobotic applications was also evident during the recent coronavirus pandemic and will grow in future. Robotic teleoperation satisfies the demands of the scenarios in which human access carries measurable risk, but human intelligence is required. An effective teleoperation system not only enables intuitive human-robot interaction (HRI) but ensures the robot can also be operated in a way that allows the operator to experience the feel of the robot working on the remote side, gaining a sense of presence. Extended reality (XR) technology integrates real-world information with computer-generated graphics and has the potential to enhance the effectiveness and performance of HRI by providing depth perception and enabling judgment and decision making while operating the robot in a dynamic environment. This review examines novel approaches to the development and evaluation of an XR-enhanced telerobotic platform for intuitive remote teleoperation applications in dangerous and difficult working conditions. It presents a strong review of XR-enhanced telerobotics for remote robotic applications; a particular focus of the review includes the use of integrated 2D/3D mixed reality with haptic interfaces to perform intuitive remote operations to remove humans from dangerous conditions. This review also covers primary studies proposing Virtual Reality (VR), Augmented Reality (AR), and Mixed Reality (MR) solutions where humans can better control or interact with real robotic platforms using these devices and systems to extend the user's reality and provide a more intuitive interface. The objective of this article is to present recent, relevant, common, and accessible frameworks implemented in research articles published on XR-enhanced telerobotics for industrial applications. Finally, we present and classify the application context of the reviewed articles in two groups: mixed reality-enhanced robotic telemanipulation and mixed reality-enhanced robotic tele-welding. The review thus addresses all elements in the state of the art for these systems and ends with recommended research areas and targets. The application range of these systems and the resulting recommendations is readily extensible to other application areas, such as remote robotic surgery in telemedicine, where surgeons are scarce and need is high, and other potentially high-risk/high-need scenarios.

Automated summary

With the rapid development of space exploration, deep-sea discovery, nuclear rehabilitation and management, and robotic-assisted medical devices, there is an increasingly urgent need for humans to interactively control robotic systems to perform precise remote operations. Robotic teleoperation satisfies the demands of scenarios where human access carries risk but human intelligence is required. Extended reality (XR) technology enhances human-robot interaction and provides a sense of presence by integrating real-world information with computer-generated graphics.