Influence of human-computer interface elements on performance of teleoperated mobile robot

2017 40th International Convention on Information and Communication Technology, Electronics and Microelectronics (MIPRO) Pub Date : 2017-05-22 DOI:10.23919/MIPRO.2017.7973573

Stanko Kružić, J. Musić, I. Stančić

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引用次数: 5

Abstract

Mobile robots are becoming ubiquitous, with applications which usually include a degree of autonomy. However, due to uncertain and dynamic nature of operational environment, algorithms for autonomous operation might fail. In order to assist the robot, the human operator might need to take control over the robot from remote location. In order to efficiently and safely teleoperate the robot, the operator has to have high degree of situational awareness. This can be achieved with appropriate human-computer interface (HCI), so that the remote environment model constructed with sensor data is presented at appropriate time, and that robot commands can be issued intuitively and easily. In the research, influence of HCI elements on performance of teleoperated mobile robot was studied for several tasks and with several HCI setups. The user study was performed, in which accuracy and speed of completion of given tasks were measured on a real robot. Statistical analysis was performed in order to identify possible setup dependencies. It showed that, in majority of analysed cases and based on introduced metrics, there is no significant difference between the setups, and between the visual control and teleoperation. Finally, conclusions were drawn with emphasis on benefits of information technology in particular case.

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人机界面元素对遥控移动机器人性能的影响

移动机器人正变得无处不在，其应用通常包括一定程度的自主性。然而，由于作战环境的不确定性和动态性，自主作战算法可能会失效。为了帮助机器人，人类操作员可能需要从远程位置控制机器人。为了对机器人进行高效、安全的远程操作，操作者必须具备高度的态势感知能力。这可以通过适当的人机界面(HCI)来实现，以便在适当的时候呈现由传感器数据构建的远程环境模型，并且可以直观方便地发出机器人命令。在本研究中，研究了在多个任务和多个HCI设置下，HCI元素对遥控移动机器人性能的影响。进行了用户研究，其中在真实的机器人上测量了完成给定任务的准确性和速度。为了确定可能的设置依赖项，执行了统计分析。它表明，在大多数分析案例中，基于引入的指标，设置之间以及视觉控制和远程操作之间没有显着差异。最后，得出结论，特别强调信息技术的好处。

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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来源期刊

2017 40th International Convention on Information and Communication Technology, Electronics and Microelectronics (MIPRO)

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