Design of Interaction for simply operating smart electric wheelchair in Intelligent Space

2011 4th International Conference on Human System Interactions, HSI 2011 Pub Date : 2011-05-19 DOI:10.1109/HSI.2011.5937345

M. Niitsuma, T. Ochi, M. Yamaguchi, H. Hashimoto

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引用次数: 2

Abstract

This paper presents interaction between a user and a smart electric wheelchair. We propose a personal mobility tool (PMT) which integrates autonomous mobile robot navigation technology with intuitive and cognitive interaction between a user and a smart wheelchair. An intuitive and noncontinuous input method to enable a user to specify a direction in which he/she wants to go is proposed. Using an acceleration sensor and a pressure sensor, a user gives direction to the PMT. Then, the PMT determines a goal position in an environmental map based on the direction. Also, to help a user interpret robot behaviors, an output interface to realize informative communication between a user and the PMT is described. In this paper, we present an improved vibrotactile interface to provide environmental information from a smart wheelchair to the user. We conducted experiments to evaluate users' performance using the output vibrotactile interface. In the experiments, users tried to detect distance and angle toward obstacles based on vibration stimuli. Through the experiments, we could confirm that the improved vibrotactile interface could improve users' performance well.

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智能空间中简易操作智能电动轮椅的交互设计

本文介绍了用户与智能电动轮椅之间的交互。我们提出了一种个人移动工具(PMT)，它将自主移动机器人导航技术与用户与智能轮椅之间的直观和认知交互相结合。提出了一种直观的非连续输入法，使用户能够指定他/她想要去的方向。使用一个加速度传感器和一个压力传感器，用户给PMT方向。然后，PMT根据方向确定目标在环境图中的位置。此外，为了帮助用户解释机器人的行为，还描述了一个输出接口，用于实现用户与PMT之间的信息通信。在本文中，我们提出了一种改进的振动触觉界面，从智能轮椅向用户提供环境信息。我们进行了实验来评估用户使用输出振动触觉界面的性能。在实验中，用户尝试根据振动刺激来检测与障碍物的距离和角度。通过实验，我们可以证实改进的振动触觉界面可以很好地提高用户的性能。

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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2011 4th International Conference on Human System Interactions, HSI 2011

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