Employment of 3D printing for enhanced kanji learning

Joint International Conference on Human-Centered Computer Environments Pub Date : 2012-03-08 DOI:10.1145/2160749.2160784

K. Kanev, Itaru Oido, R. Yoshioka, N. Mirenkov

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引用次数: 14

Abstract

Learning of kanji is a complex process that requires significant time and effort for understanding fundamentals of kanji construction, developing adequate writing skills, retention of proper meaning and language use, etc. Research presented in this work addresses earlier stages of kanji learning where basic understanding of kanji composition takes place and tangible associations are being established. Written kanji are essentially flat and thus resemble alphabet characters and numerals but in contrast to them many kanji and kanji components are derived from and thus directly associated with existing physical artifacts and notions. For novice kanji learners, however, it is usually very hard to analyze and map kanji and kanji components to existing artifacts. We attempt to facilitate this process by introducing various tangible kanji representations and bringing flat, written kanji back to the tangible 3D world where learners can get proper touch and feel of them. We report on the design and development of different spatial kanji models and construction sets for kanji learning experiments and research.

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利用3D打印增强汉字学习

学习汉字是一个复杂的过程，需要大量的时间和精力来理解汉字的基本结构，发展足够的写作技巧，保留正确的意义和语言使用等。在这项工作中提出的研究解决了汉字学习的早期阶段，在那里对汉字组成有了基本的理解，并建立了有形的联系。书写的汉字基本上是平的，因此类似于字母字符和数字，但与之相反，许多汉字和汉字成分来源于并因此直接与现有的物理人工制品和概念相关。然而，对于初学汉字的人来说，分析和映射汉字和汉字组件到现有的工件通常是非常困难的。我们试图通过引入各种有形的汉字表示来促进这一过程，并将平面的，书面的汉字带回有形的3D世界，让学习者能够正确地触摸和感受它们。本文报道了不同空间汉字模型和构建集的设计和开发，用于汉字学习实验和研究。

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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Joint International Conference on Human-Centered Computer Environments

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