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    TeleRescuer concept

    TeleRescuer Project is realized in the framework of Research Fund Coal and Steel programme and partially financed by European Commision. read more

  • About

    TeleRescuer Project results

    The goal of our project is to develop an unmanned vehicle (UV) for the virtual teleportation of the rescuer to the area affected by catastrophic events. read more

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    Cooperation with Us

    Are you looking for reliable solutions for mine rescuers’ safety? Would you like to be seller of our products? If you are interested in cooperation do not hesitate to contact us. read more

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    Consortium Members

    We are a well-balanced, interdisciplinary Consortium of research institutions, including SMEs and a prospective end-user. read more

TeleRescuer project objectives

The goal is to develop a system for the virtual teleportation (or virtual immersion) of rescuers to the subterranean areas of a coal mine that have been closed due to a catastrophic event within them.

Nowadays, human rescuers inspect such areas. The activity of rescuers is extremely dangerous. Moreover, human rescuers are only allowed to enter a restricted area if the values of several critical parameters achieve acceptable levels, which often require long waiting times. To overcome these problems and improve the efficiency of operation of human rescuers, a TeleRescuer system will be developed. It will take advantage of a special unmanned vehicle (UV) capable of moving within the area affected by the catastrophic event (i.e., with many obstacles, such as parts of damaged machinery and equipment, fallen rocks, damaged installations, etc.). The UV will be equipped with sensors and video cameras (standard and IR). A breakthrough in the operation of such UVs will depend on the real possibility of the virtual immersion –

 

or virtual teleportation – of the rescuer to the area of operation, which will be achieved by combining three key technologies. First, particular attention will be paid to the interface of the rescuer/UV, the goal of which is to make possible direct action in the inspected area while the operator remains in a safe place. To this end, both virtual and augmented reality will be widely applied. Second, to allow this virtual teleportation, a very powerful communication system will be developed to allow for the broadband broadcasting of videos, results of measurements, and the virtual, direct control of the UV and its sensors and effectors. Third, a very realistic simulator will be developed to allow for the testing of the interface and to train rescuers in controlling and using the UV during the rescue operations in a representative environment. Finally, the general approach and the system itself will undergo extensive tests in an environment that is very similar to the operating conditions of rescuers in a real coal mine, supervised by the Mines Rescue Station.