空中手寫中文字辨識

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姓名

鄒佩珊(Pei-Shan Tsou) 查詢紙本館藏

畢業系所

軟體工程研究所

論文名稱

空中手寫中文字辨識
(In-air Handwriting Chinese Character Recognition)

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摘要(中)

近年來人機互動興起，對事物的操控不再只局限於以按鍵來遙控，隨著手勢辨識研究逐漸嶄露成果，空中手寫文字辨識也有越來越多研究單位積極投入，除了被全球較廣泛使用的英文字母及阿拉伯數字外，擁有廣大人口量使用的漢字也慢慢受到重視。
相較於傳統手寫輸入，空中手寫具有僅以一筆畫完成的特性，實、虛筆參雜其中使文字組成更為複雜；而與拉丁字母相比，漢字又多了百倍以上的變化，再加上每個使用者在寫繁體字時筆畫順序不盡相同，會直接影響虛筆產生的筆劃數、位置與方向。
我們使用Kinect做影像擷取，用以獲得深度資訊，再透過分析人體骨架抓取手部移動軌跡，並利用起始與結束動作構成每一個字的筆劃。將完整正規化到一定大小後針對文字軌跡降維，從中提取轉折點、形狀上下文、八方向比例等特徵。最後進入辨識模組，結合動態時間校正設計出合適的損失函數，藉以顯示前五名候選字。

摘要(英)

Human-computer interaction has risen in recent years, and the manipulation of things is no longer limited to the remote control via buttons. With the development of gesture recognition research, there have been more and more research institutions actively investing in handwriting recognition in the air, in addition to being widely used globally. Chinese characters that are used by a large number of people have also gradually received attention.
Different from touch-screen handwriting, the in-air written character has no pen-lift information, i.e., a character is always finished writing in one stroke. Compared with the Latin alphabet, the Chinese characters have more than one hundred times more change. In addition, each user′s stroke order when writing Traditional Chinese characters will have a direct impact on the number, position, and direction of strokes generated by the virtual pen.
In this paper, Kinect is used for image capture to obtain depth information, and the movement of the hand become trajectory by analyzing the human skeleton, and the strokes of each word are formed by using the starting and ending motions. After normalization to a certain size, the dimension of the text trajectory is reduced, and features such as turning point, shape context, and eight-direction ratio are extracted. Finally, the identification module is entered and a suitable loss function is designed in conjunction with dynamic time warping to display the first three candidate words.

關鍵字(中)

★ 空中手寫
★ 人體骨架
★ 形狀上下文
★ 動態時間校正

關鍵字(英)

★ In-air Handwriting
★ Human Skeleton
★ Shape Context
★ Dynamic Time Warping

論文目次

摘要 i
Abstract ii
致謝 iii
目錄 iv
圖目錄 vi
表目錄 viii
第一章緒論 1
1.1 研究動機 1
1.2 相關文獻 2
1.3 論文架構 5
第二章背景知識 6
2.1 形狀上下文 (Shape Context) 6
2.2 動態時間校正 (Dynamic Time Warping) 7
2.3 Microsoft Kinect 9
2.4 OpenNI 10
2.5 人體骨架追蹤演算法 11
第三章手寫漢字辨識系統 12
3.1 系統流程 12
3.2 手寫情境 13
3.3 軌跡正規化 15
3.4 特徵擷取 16
3.4.1 筆劃切割(筆劃數統計) 16
3.4.2 方向統計 18
3.4.3 形狀上下文 19
3.5 辨識 20
第四章實驗結果與討論 22
4.1 實驗環境 22
4.2 測試資料 23
4.3 實驗說明 27
4.4 實驗數據 30
第五章結論與未來展望 41
5.1 結論 41
5.2 未來展望 41
參考文獻 42

參考文獻

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[2] X. Zhang, Z. Ye, L. Jin, Z. Feng, and S. Xu, “A New Writing Experience: Finger Writing in the Air Using a Kinect Sensor,” IEEE Multimed., vol. 20, no. 4, pp. 85–93, Oct. 2013.
[3] “KinWrite: Handwriting-Based Authentication Using Kinect,” NDSS Symposium, 07-Sep-2017.
[4] T. T. Chu and C. Y. Su, “A Kinect-based handwritten digit recognition for TV remote controller,” in 2012 International Symposium on Intelligent Signal Processing and Communications Systems, 2012, pp. 414–419.
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[8] J. C. Lee, T. J. Fong, and Y. F. Chang, “Feature Extraction for handwritten Chinese character recognition using X-Y graphs decomposition and Haar wavelet,” in 2009 IEEE International Conference on Signal and Image Processing Applications, 2009, pp. 10–14.
[9] Z. Zhang, L. Jin, K. Ding, and X. Gao, “Character-SIFT: A Novel Feature for Offline Handwritten Chinese Character Recognition,” in 2009 10th International Conference on Document Analysis and Recognition, 2009, pp. 763–767.
[10] B. C. Bhokse and B. S. Thakare, “Devnagari Handwriting Recognition System using Dynamic Time Warping Algorithm,” Int. J. Comput. Appl., vol. 52, no. 9, pp. 7–13, Aug. 2012.
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[12] N. Xu, W. Wang, and X. Qu, “Recognition of In-air Handwritten Chinese Character Based on Leap Motion Controller,” in Image and Graphics, 2015, pp. 160–168.
[13] S. Belongie, J. Malik, and J. Puzicha, “Shape matching and object recognition using shape contexts,” IEEE Trans. Pattern Anal. Mach. Intell., vol. 24, no. 4, pp. 509–522, Apr. 2002.
[14] “Dynamic Time Warping ?????整算法 - 阿凡? - 博客?.” [Online]. Available: https://www.cnblogs.com/luxiaoxun/archive/2013/05/09/3069036.html. [Accessed: 16-Jul-2018].
[15] “Kinect for Windows開發.” [Online]. Available: https://msdn.microsoft.com/zh-tw/hh367958. [Accessed: 16-Jul-2018].
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[17] 邱莉文, “基於3D感應器與筆順時序變化之空中手寫身分認證系統,”國立中央大學資訊工程學系碩士論文, 2017.

指導教授

范國清(Kuo-Chin Fan)

審核日期

2018-7-20

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