Adaptive Symmetrical Virtual Keyboard Based on EOG Signal

2019 4th Asia-Pacific Conference on Intelligent Robot Systems (ACIRS) Pub Date : 2019-07-01 DOI:10.1109/ACIRS.2019.8935956

M. Rusydi, Arrya Anandika, R. Adnan, Kojiro Matsushita, M. Sasaki

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引用次数: 3

Abstract

Electrooculography (EOG) signal is a bio-signal that could play important roles in building communication between human and machine. This bio-signal is extracted from gaze motions by attaching electrodes to the skin around the eye. This paper presented the design and development of gaze-motion controlled adaptive virtual keyboard. The keyboard has the ability to arrange character layout based on specified frequency of a character. The designed virtual keyboard has 45 keys that comprising 26 letters, 10 numerals, 4 symbols, a space, a delete, an enter, a return and a central point key. The keyboard layout has six zones. Characters in the same zone have equal distance to the central point. The distance is the least gazing that possible to move from the central point to the character. The most frequently used character will shift to the shortest distance position. Seven paragraphs were typed using this virtual keyboard. The keywords of each paragraph are ‘bukittinggi’, ‘zimbawe’, ‘andalas’, ‘sukarno’, ‘randang’, ‘kapal’ and ‘dokter’. The performance of the adaptive virtual keyboard was evaluated using these seven keywords. Results shows that the number of gaze motion required to type the keyword after the re-arrangement of layout decreased about 27%. This adaptive ability can reduce the number of gazing to prevent eye fatigue.

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基于眼电信号的自适应对称虚拟键盘

眼电信号是一种生物信号，在建立人与机器之间的通信中起着重要的作用。这种生物信号是通过在眼睛周围的皮肤上安装电极从凝视运动中提取出来的。本文介绍了注视运动控制自适应虚拟键盘的设计与开发。键盘能够根据指定的字符频率来安排字符布局。设计的虚拟键盘有45个键，包括26个字母、10个数字、4个符号、一个空格、一个删除、一个进入、一个返回和一个中心点键。键盘布局有六个区域。同一区域内的字符到中心点的距离相等。从中心点移动到人物的距离是尽可能少的凝视。最常用的字符将移动到距离最短的位置。七个段落是用这个虚拟键盘打出来的。每段的关键词是“bukittinggi”、“zimbawe”、“andalas”、“sukarno”、“randang”、“kapal”和“dokter”。利用这七个关键字对自适应虚拟键盘的性能进行了评价。结果表明，重新排列排版后，输入关键词所需的注视动作减少了约27%。这种适应能力可以减少凝视的次数，防止眼睛疲劳。

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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2019 4th Asia-Pacific Conference on Intelligent Robot Systems (ACIRS)

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