基于笔交互的智能动态几何可视化白板系统

微信服务号

微信订阅号

2025年4月25日 0:41 星期五

首页 > 过刊浏览>2007年第18卷第zk期 >120-128

基于笔交互的智能动态几何可视化白板系统
DOI:
                        
                    
CSTR:
                        
                    
作者:
                        任 磊任 磊
中国科学院 软件研究所 人机交互技术与智能信息处理实验室,北京 100080
在期刊界中查找
在百度中查找
在本站中查找
杨海燕杨海燕
中国科学院 软件研究所 人机交互技术与智能信息处理实验室,北京 100080
在期刊界中查找
在百度中查找
在本站中查找
刘媛媛刘媛媛
中国科学院 软件研究所 人机交互技术与智能信息处理实验室,北京 100080
在期刊界中查找
在百度中查找
在本站中查找
马翠霞马翠霞
中国科学院 软件研究所 人机交互技术与智能信息处理实验室,北京 100080
在期刊界中查找
在百度中查找
在本站中查找
滕东兴滕东兴
中国科学院 软件研究所 人机交互技术与智能信息处理实验室,北京 100080
在期刊界中查找
在百度中查找
在本站中查找

                    
作者单位:
作者简介:
通讯作者:
中图分类号:
基金项目:Supported by the National Natural Science Foundation of China under Grant No.60703079(国家自然科学基金); the Natural Basic Research Program of China under Grant No.2006CB303105(国家重点基础研究发展计划(973));the National Science and Technology Supporting Program of China under Grant No.2006BAF01A44(国家科技支撑计划)

An Intelligent Pen-Based Whiteboard System for Dynamic Geometry Visualization

Author:

Affiliation:

Fund Project:

摘要

图/表

访问统计

参考文献 [15]

相似文献 [20]

引证文献

资源附件

文章评论

摘要:

计算机辅助教学系统目前已在教学中大量应用,然而,基于WIMP界面范式的电子课件系统,无法满足教师在课堂教学互动中需要与用户界面自然、高效、连续性交互的需求,尤其是几何教学中连续书写板书、自由勾画图形、动态几何定理演示等.设计和实现了一个基于笔交互的智能动态几何可视化白板系统.该系统以笔代替鼠标键盘,能够连续添加笔迹批注,勾画并识别几何草图,使用笔手势操纵界面元素,并通过扩展LIM0算法支持动态几何约束求解与动态几何可视化.讨论了该系统的框架及其关键技术,并给出了应用实例.可用性评估实验结果表明,该系统具有

关键词:人机交互;笔式交互;草图用户界面;动态几何;计算机辅助教学

Abstract:

WIMP-Based electronic teaching systems can not meet teachers’ requirements of natural and efficient interaction, especially continuous drawing and writing in geometry teaching. In this paper, an intelligent pen-based whiteboard system (IPW) for dynamic geometry visualization is designed and implemented. IPW can be used to add handwriting, outline and recognize geometry and manipulate interface elements with pen gestures. Through extended LIM0 algorithm dynamic geometric constraint solving and dynamic geometric visualization are supported. This paper discusses IPW’s framework and its key technologies, and gives application examples. Experimental results show that IPW has higher task completion efficiency and user satisfaction.

Key words:HCI; pen-based interaction; sketch based interface; dynamic geometry; computer aided teaching

参考文献

[1] Rbeiz M. Semantic representation of digital ink in the classroom learning partner [MS. Thesis]. Cambridge: Massachusetts Institute of Technology, 2006.

[2] Beaudouin LM. Instrumental interaction: An interaction model for designing post-WIMP user interfaces. In: Turner T, Szwillus G, eds. Proc. of the SIGCHI Conf. on Human Factors in Computing Systems. New York: ACM Press, 2000. 446-453.

[3] Golub E. Handwritten slides on a tabletPC in a discrete mathematics course. In: Joyce D, Knox D, Dann W, Naps T, eds. Proc. of the 35th SIGCSE Technical Symp. on Computer Science Education. New York: ACM Press, 2004.51-55.

[4] Lin Q, Ren L, Chen Y, Fan KF, Dai GZ. The design of intelligent dynamic geometry software based on the enhance lim0 arithmetic. Chinese Journal of Computers, 2006,29(12):2163-2171 (in Chinese with English abstract).

[5] Golub E. Using the BIRD note-taking system during in-class presentations: An example in an HCI class. 2003. http://hcil.cs.umd.edu/trs/2003-34/2003-34.html

[6] Anderson R, Anderson R, Davis KM, Linnell N, Prince C, Razmov V. Supporting active learning and example based instruction with classroom technology. In: Russel I, Haller S, Dougherty JD, Rodger S, eds. Proc. of the 38th SIGCSE Technical Symp. on Computer Science Education. New York: ACM Press, 2007. 69-73.

[7] Gregory DA, Jason B, Janak B. Classroom 2000: A System For Capturing and Accessing Multimedia Classroom Experiences. In: Karat CM, Lund A, eds. CHI 98 Conf. Summary on Human Factors In Computing Systems. New York: ACM Press, 1998. 20-21.

[8] Berque D., Bonebright T., and Whitesell M. Using pen-based computers across the computer science curriculum. In: Proc. of the 35th SIGCSE Technical Symp. on Computer Science Education, New York: ACM Press, 2004. 61-65.

[9] Tian F. Research on Post-WIMP Software Interface [Ph.D. Thesis]. Beijing: Graduate School of the Chinese Academy of Sciences, 2003 (in Chinese with English abstract).

[10] Liu YY, Lin Q, Dai GZ. PIGP: A pen-based intelligent dynamic lecture system for geometry teaching. In: Hui KC, Pan ZG, Encarna??o LM, eds. Lecture Notes in Computer Science, Vol. 4469. Berlin: Springer-Verlag, 2007. 381-390.

[11] Luger GF. Artificial Intelligence: Structures and Strategies for Complex Problem Solving. 4th.ed., Pearson Education Limited. 2002. 197?247.

[12] Owen J. Algebraic solution for geometry from dimensional constraints. In: Rossignac J, Tumer J, eds. Proc. of the 1st ACM Symp. on Solid Modeling Foundations and CAD/CAM Applications. New York: ACM Press, 1991. 397-407.

[13] Fudos I, Hoffmann CM. A graph-constructive approach to solving systems of geometric constraints. ACM Trans. on Graphics, 1997,16(2):179-216. 附中文参考文献:

[4] 林强,任磊,陈颖,范科峰,戴国忠.基于拓展LIMD算法的智能动态几何软件设计.计算机学报,2006,29(12):2163-2171.

[9] 田丰.Post-WIPM软件界面研究[博士学位论文].北京:中国科学院研究生院,2003.

引用本文

任磊,杨海燕,刘媛媛,马翠霞,滕东兴.基于笔交互的智能动态几何可视化白板系统.软件学报,2007,18(zk):120-128

复制

文章指标

点击次数:3620
下载次数: 5876
HTML阅读次数: 0
引用次数: 0

历史

收稿日期:2007-09-15
最后修改日期:2007-11-25
录用日期:
在线发布日期:
出版日期:

微信服务号

微信订阅号

引用本文

分享

文章指标

历史

文章二维码

微信服务号

微信订阅号

引用本文

分享

微信扫一扫：分享

文章指标

历史

文章二维码