Abstract
Abstract. Extravehicular activity (EVA) on the lunar surface, necessary for the future exploration of the Moon, involves extensive use of robots. One of the factors of safe EVA is a proper interaction between cosmonauts and robots in extreme environments. This requires a simple and natural man-machine interface, e.g. multimodal contactless interface based on recognition of gestures and cosmonaut’s poses. When travelling in the "Follow Me" mode (master/slave), a robot uses onboard tools for tracking cosmonaut’s position and movements, and on the basis of these data builds its itinerary. The interaction in the system "cosmonaut-robot" on the lunar surface is significantly different from that on the Earth surface. For example, a man, dressed in a space suit, has limited fine motor skills. In addition, EVA is quite tiring for the cosmonauts, and a tired human being less accurately performs movements and often makes mistakes. All this leads to new requirements for the convenient use of the man-machine interface designed for EVA. To improve the reliability and stability of human-robot communication it is necessary to provide options for duplicating commands at the task stages and gesture recognition. New tools and techniques for space missions must be examined at the first stage of works in laboratory conditions, and then in field tests (proof tests at the site of application). The article analyzes the methods of detection and tracking of movements and gesture recognition of the cosmonaut during EVA, which can be used for the design of human-machine interface. A scenario for testing these methods by constructing a virtual environment simulating EVA on the lunar surface is proposed. Simulation involves environment visualization and modeling of the use of the "vision" of the robot to track a moving cosmonaut dressed in a spacesuit.
Highlights
A design of Human Robot Interaction (HRI) in relation to robots-assistants attracted the attention of researchers in the obvious aspects of practical utility, and in the light of solving actual scientific problems of developing a humanmachine dialogue that meets the requirements of familiarity, availability and simplicity
The questions of information providing for cosmonauts are considered in respect to the gesture-type control of mobile robots during extravehicular activity (EVA) on the lunar surface (Burridge, Graham, 2001; Liu, Luo and Ju, 2016), with taken into account a set of human factor constraints in EVA
We presented the analysis of methods of interaction in the team of cosmonauts and mobile robots in one of the possible modes of the EVA, when the operator on the lunar surface moves accompanied by a robot
Summary
A design of Human Robot Interaction (HRI) in relation to robots-assistants attracted the attention of researchers in the obvious aspects of practical utility, and in the light of solving actual scientific problems of developing a humanmachine dialogue that meets the requirements of familiarity, availability and simplicity. A new stage of development of contactless methods of interactions is connected with the inclusion of robots-assistants in the professional activity of the person (operator) in extreme environments (Karpov et al, 2016; Kryuchkov et al, 2014, Kryuchkov et al, 2015; Burridge, Graham, 2001). The purpose and the advantages of robots-assistants in this case are fairly obvious: a person receives more favorable conditions for operating in extreme conditions, it facilitates the exploration of a poorly-studied environment, operator may spend less time in hazardous conditions, but the problem of safety in a joint operation of humans and robots still remains. The task of modeling such a system of information support in the laboratory conditions is consist of designing interfaces with the greatest possible similarity for the real conditions, based on the description of multi-level system for monitoring the activities of humans and robots in EVA
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