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研究生:陳政鋐
研究生(外文):Cheng-Hung Chen
論文名稱:互動式觸控展示系統之設計
論文名稱(外文):The Design of Interactive Touch Display System
指導教授:黃有評黃有評引用關係蔡佳勝蔡佳勝引用關係
指導教授(外文):Yo-Ping HuangChia-Sheng Tsai
學位類別:碩士
校院名稱:大同大學
系所名稱:資訊工程學系(所)
學門:工程學門
學類:電資工程學類
論文種類:學術論文
論文出版年:2009
畢業學年度:97
語文別:英文
論文頁數:66
中文關鍵詞:關聯法則資訊分享與交換中心觸控展示系統手持裝置藍芽
外文關鍵詞:association ruleinformation sharing and exchanging centertouch display systemhandheld deviceBluetooth.
相關次數:
  • 被引用被引用:1
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  • 下載下載:210
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電腦輸入設備由大型機械式操作演化至使用鍵盤滑鼠輸入,近期則進展到以觸控式螢幕為主,因為輸入方式改變,使得軟體介面也開始演進,從早期終端機畫面,到色彩豐富的視窗介面以及動畫形態的操作介面,這些介面設計讓人機互動更加緊密,因此,該如何設計軟體介面才可讓觸控螢幕技術發揮到最大人機互動效果,是目前非常值得探討的研究領域。
公眾場合使用的觸控螢幕系統,在既有人機互動的情況下,會希望達到多人互動效果,本論文提出的互動式展示系統,結合投影機與觸控設備,不僅可讓使用者隨心所欲地欣賞喜歡的照片,更可利用藍芽無線通訊上傳手持裝置內照片到系統畫面,與更多人分享,使之成為在展示場合內的資訊分享與交換中心。
當觸控螢幕上的照片逐步增加會造成系統畫面變得雜亂,讓觸控操作失去了原有的便利性,故本論文設計之互動推薦機制,可記錄每位使用者的瀏覽資料,並利用關聯法則找出資料的關聯性,系統藉由關聯結果主動推薦使用者可能喜愛的圖片。而針對在大型螢幕上的觸控操作,會因為操作範圍較廣而變得麻煩,為解決這樣的問題,系統會記錄使用者的點擊與拖曳習慣,透過關聯法則找出習慣操作區域間的關聯性,將此關聯結果與互動推薦機制搭配,把使用者可能喜愛的圖片分配在習慣操作路徑上,以符合使用者的操作習慣。最後,我們透過問卷調查來了解使用者操作本論文設計的展示系統心得,64%的使用者認為觸控式展示系統能夠吸引他們使用,74%的使用者認為本論文設計的互動推薦機制能夠在大量圖片中找到他們想要觀賞的圖片,而有71%的使用者喜愛以資訊分享交換中心與觸控式螢幕設計的展示系統。
Computer input device was developed from the large-scale mechanical operation to keyboard and mouse. Recently, touch screen technologies are major trends in input device domain. Software interface also begins to evolve on account of convenient input technologies. From console mode to colorful window’s interface and full of animation interface, they make close interaction between human and computer.
The display system not only focuses on human-computer interaction but also achieves widespread multi-people interaction on the public place. Therefore, this thesis proposes an interactive display system which combines a projector and a suite of touching equipment. Users have their way to enjoy favorite pictures or share pictures with others by using handheld device’s Bluetooth to upload data. This touch system can be a center for sharing and exchanging information.
This interface will lose it convenience while the volume of pictures increases. An interactive recommendation mechanism is proposed to recommend interesting pictures to users. It is inconvenient in touching a large-scale screen. To solve this problem, our system discovers association rules extracted from users’ click and drag actions. Association rules are used to allocate interesting objects along the fingers’ moving route. In this way, pictures are distributed over the screen according to users’ operating habit. Finally, we have a sample questionnaire for analyzing users’ satisfaction. 64% of the people feel the touch display system could attract their attention. 74% of the people consider the recommendation function helps them to find favorite pictures. And 71% of the people enjoy this touch display system.
ACKNOWLEDGEMENTSi
ENGLISH ABSTRACTii
CHINESE ABSTRACTiii
TABLE OF CONTENTSiv
LIST OF FIGURESvii
LIST OF TABLESx
CHAPTER
1. INTRODUCTION1
1.1 Motivation1
1.2 Objective2
1.3 Method3
1.4 Thesis Organization3
2. RELEATED WORK4
2.1 Data Mining4
2.1.1 Association Rules Mining4
2.1.2 Apriori Algorithm5
2.2 Web Traversal Pattern Mining9
2.3 Touch Screen Technology11
2.3.1 Resistive Touch Screen11
2.3.2 Capacitive Touch Screen12
2.3.3 Optical Touch screen13
2.3.4 The Comparisons of Touch Screen Technologies14
2.4 Barcode15
2.4.1 The Structure of QR Code16
2.4.2 The Capacity of QR Code16
2.4.3 The Fault-tolerance of QR Code17
2.4.4 The Application of QR Code17
2.5 Bluetooth18
2.5.1 The Implementation of Bluetooth18
2.5.2 The Application of Bluetooth18
2.5.3 Bluetooth vs Wi-Fi in Networking19
3. SYSTEM IMPLEMENTATION20
3.1 Developing Environment20
3.2 The Hardware Architecture21
3.2.1 The Optical Touch Device22
3.2.2 Bluetooth Receiver24
3.3 The Software Architecture25
3.4 The Process of the Touch Display System29
3.5 The Process of the Data Mining System33
4. EXPERIMENTAL RESULTS AND DISCUSSION38
4.1 Realistic Manipulation38
4.2 The Interface of the Touch Display System39
4.3 Interactive Information Sharing44
4.4 Interactive Recommendation Function46
4.5 Interactive Bluetooth Function48
4.6 Interactive Editing Function50
4.7 The Management Interface53
4.8 The Result of the Questionnaire55
5. CONCLUSIONS AND FUTURE WORK60
5.1 Conclusion60
5.2 Future Work61
REFERENCES62
APPENDIX65
[1]C. Shen, K. Ryall, C. Forlines, A. Esenther, F.D. Vernier, K. Everitt, M. Wu, D. Wigdor, M.R. Morris, M. Hancock, and E. Tse, “Informing the design of direct-touch tabletops,” IEEE Computer Graphics and Application, vol. 26, no. 5, pp.36-46, Sep. 2006.
[2]E. Hornecker, ““I don’t understand it either, but it is cool”-Visitor Interaction with a Multi-Touch Table in a Museum,” in Proc. of Third IEEE Int. Workshop on Horizontal Interactive Human Computer Systems, Amsterdam, Nederland, pp.113-120, Oct. 2008.
[3]Y.-P. Huang, Y.-T. Chang and F.E. Sandnes, “RFID-based interactive learning in science museums,” in Proc. of the 5th Int. Conf. on Ubiquitous Intelligence and Computing, Oslo, Norway, pp.700-712, June 2008.
[4]Y.-P. Huang, Y.-T. Chang and F.E. Sandnes, “Experiences with RFID-based Interactive Learning in Museums,” Int. Journal of Autonomous and Adaptive Communications Systems, vol. ??, no. ??, March 2009.
[5]Y.-P. Huang, W.-P. Chuang, Y.-T. Chang and F.E. Sandnes, “Enhanced interactivity in learning-guide systems with RFID,” in Proc. 1st Annual RFID Eurasia Conf., Istanbul, Turkey, pp.1-6, Sep. 2007.
[6]Y.-P. Huang, L.-J. Kao and F.E. Sandnes, “Discriminating important ocean salinity and temperature patterns in Argo data,” in Proc. of IEEE SMC, Singapore, pp.2677-2682, Oct. 2008.
[7]C.-H. Yun and M.-S. Chen, “Mining mobile sequential patterns in a mobile commerce environment,” IEEE Trans. on System, Man, and Cybernetics, vol. 37, no. 2, pp.278-295, Mar. 2007.
[8]Y.-P. Huang, W.-P. Chuang and F.E. Sandnes, “An association rule-based recommender engine for mobile bird searching information systems,” in Proc. of the 8th IASTED Int. Conf. on Intelligent Systems and Control, Cambridge, MA, USA, pp.315-320, Oct. 2005.
[9]Y.-P. Huang, W.-P. Chuang and C.-L. Lin, “互動式智慧型鳥類檢索系統與推薦模式之設計,” in Proc. of the Digital Learning Conf., Pintong, Taiwan, pp.83-92, May 2006.
[10]多點觸碰技術分析比較,http://blog.xi-ji.com/?paged=2
[11]曾憲雄、蔡秀滿、蘇東興、曾秋蓉、王慶堯,資料探勘Data Mining,旗標出版股份有限公司,台北,台灣,2005年。
[12]R. Agrawal, T. Imielinski and A. Swami, “Mining association rules between sets of items in large database,” in Proc. of ACM SIGMOD Int. Conf. on Management of Data, Washington D.C., U.S.A., pp.207-216, May 1993.
[13]A. H. Halim, A. H. Fauzi, and S. Tarmizi, “Bluetooth mobile advertising system using pull-based approach,” in Proc. of Int. Symp. on Information Technology, Kuala Lumpur, Malaysia, vol. 4, pp.1-4, Aug. 2008.
[14]O.R. Zaizne, M. Xin and J. Han, “Discovering Web access pattern and trends by applying PLAP and data mining technology on Web logs,” in Proc. of IEEE Int. Conf. on Advances in Digital Libraries, Santa Barbara, CA, USA, pp.19-29, Apr. 1998.
[15]藍芽技術介紹,http://neuron.csie.ntust.edu.tw/homework/93/csie_introduction/homework1/b9315032/BlueTooth.htm
[16]R. Agrwal and R. Srikant, “Mining sequential patterns,” in Proc. of IEEE Int. Conf. on Data Engineering, Taipei, Taiwan, pp.3-14, Mar. 1995.
[17]Y.-P. Huang and W.-P. Chuang, “The design of mobile network-based guide system and personalized service model,” in Proc. of National Computer Symposium, Taichung, Taiwan, pp.168-174, Dec. 2003.
[18]J.F. Weng, The Study of RSA Algorithm on QR Code Design, Thesis for Master of Science, Department of Computer Science and Engineering, Tatung University, Jun. 2008.
[19]F.C. Chen, Designing Personalized Mobile Shopping System for Cell Phones by QR Code, Thesis for Master of Science, Department of Computer Science and Engineering, Tatung University, Jun. 2007.
[20]H. Kato and K.T. Tan, “Pervasive 2D barcodes for camera phone applications,” IEEE Pervasive Computing, vol. 6, no. 4, pp.76-85, Oct.-Dec. 2007.
[21]The touch screen technology,http://nttu-mt.blogspot.com/2007/10/blog-post.html
[22]金純、許光辰、孫睿,藍芽技術,五南出版股份有限公司,台北,台灣,2002年
[23]禹帆,無線藍芽技術:深入探討,文魁資訊股份有限公司,台北,台灣,2001年。
[24]Bluetooth technology introduction,http://en.wikipedia.org/wiki/Bluetooth#Implementation
[25]Touch screen introduction,
http://en.wikipedia.org/wiki/Touchscreen
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