周休二日使休閒娛樂興起，其中溪釣是行之有年的休閒活動之一。然而在陌生的溪釣現場，初學者常困擾於找尋適當釣點及魚種。近年來隨智慧型手機成長，行動擴增實境技術迅速發展。因此，本研究目的既是利用行動擴增實境技術資訊整合、即時互動的特性，建構一套溪釣行動擴增實境系統，讓身處野外的溪釣初學者在不受時空限制情況下，與環境中潛藏的溪釣資訊作即時互動。系統可行性測試分為三階段進行，透過逐步修正的方式，探究本系統輔助溪釣選址成效。研究採用問卷、訪談、參與觀察進行評估。結果顯示，使用者認為本系統確實具有資訊即時互動並達到選址及環境認識的正面成效。研究者則認為本系統亦有三項限制，包括擴增實境功能幫助有限、提供資訊有限、缺乏即時資訊。

Due to the contribution of the weekly two-days-off policy, people have more time to do leisure activities. River fishing is one of the most popular ones but it is difficult for most novice anglers to find the suitable fishing spots and fish species in the strange river basin. With the growth of smart phones in recent years, the mobile augmented reality technology develops rapidly and this technology helps solve the problem mentioned previously. Therefore, this study aims to use the features of the mobile augmented reality technology—information integration and real-time interaction—to establish a river fishing mobile augmented reality system to help novice anglers have real-time interaction with the environment without the limit of time and space. Accordingly, the feasibility tests for this system are divided into three stages to explore its effect on choosing fishing spots. In addition, this study is evaluated by questionnaires, interviews and participation observation to gain further information. In conclusion, my study shows that users find it helpful to have real-time interaction with the environment to acquire vital environmental information and to choose suitable fishing spots with the aid of the mobile augmented reality technology. However, this system still has three limitations to be improved: its limited function, its limited information provided and its lack of real-time information.

T客邦（2010）。修繕服務哪裡找？iPhone幫你解決問題。取自http://www.techbang.com.tw/posts/2893-where-to-find-repair-service-iphone-to-give-you-the-answer。(2011/08/21瀏覽)。
水利署第十河川局（2011）。水系介紹－新店溪。取自http://www.wra10.gov.tw/ct.asp?xItem=44403&ctNode=30788&mp=10。(2011/07/14瀏覽)。
王義勝（2007）。擴增實境空間定位工具設計之研究。朝陽科技大學工業工程與管理研究所碩士論文，臺中縣。未出版。
王威翔（2011）。影響釣客對釣魚許可證願付價格之相關因素-臺南安平南北堤為調查基地。國立臺南大學生態旅遊研究所碩士論文，臺南市。未出版。
朱乙仲（2010）。擴增實境學習新趨勢。取自http://idp.ncu.edu.tw/english/epaper/20100430/443。(2011/08/20瀏覽)。
李尚儒（2009）。山溪釣遊者釋獲行為、深度休閒特質、流暢體驗與地方依附感影響之研究。雲林科技大學休閒運動研究所碩士論文，雲林縣。未出版。
李嘉聲（1988）。溪釣入門。臺北市：戶外生活圖書股份有限公司。
李嘉亮（1992）。臺灣釣魚入門，臺北市：戶外生活圖書股份有限公司。
李嘉亮（1992）。圖解釣魚綜合百科，臺北市：戶外生活圖書股份有限公司。
李嘉亮（1986）。圖解溪河釣百科，臺北市：戶外生活圖書股份有限公司。
李嘉亮（1997）。臺灣常見魚類圖鑑 : 溪流與河口魚，臺北市：戶外生活圖書股份有限公司。
汪靜明（1999）。大甲溪水資源環境教育計畫，經濟部水資源局。
汪靜明（2000）。大甲溪水資源環境教育。臺北市：經濟部水資源局、國立臺灣師範大學環境教育中心。
汪靜明（2003）。后番子坑溪生態系統及其生態工法教育策略，后番子坑溪生態工法教學活動設計研討會。
沈揚庭（2004）。行動地誌。國立成功大學建築研究所碩士論文，臺南市。未出版。
林子又（2009）。高中野外實察行動監控與評量平臺設計。國立臺灣師範大學地理學系碩士論文，臺北市。未出版。
林春吉（2007）。臺灣淡水魚蝦生態圖鑑（上），臺北市：天下遠見。
林春吉（2007）。臺灣淡水魚蝦生態圖鑑（下），臺北市：天下遠見。
林曜松（？）。他山之石：美國與日本的淡水魚資源管理。取自http://wagner.zo.ntu.edu.tw/sos/sosknow/sosknow_3_2.htm。(2010/10/8瀏覽)。
烏來區公所（2011）。烏來區封溪護魚公告及區域一覽表。取自http://www.wulai.ntpc.gov.tw/web/AB?command=showDetail&postId=221248。(2011/07/13瀏覽)。
馬宗銓、鄭登元（2010）。Augmented Reality & Layer Reality Browser。Software System Spring。
陶天麟（2004）。臺灣淡水魚地圖。臺中市 : 晨星。
陳義雄、方力行（1999）。臺灣淡水及河口魚類誌。屏東縣 : 國立海洋生物博物館籌備處。
游嘉智（2009）。擴增實境行動遊戲設計研究-以古蹟寺廟導覽為例。大同大學工業設計研究所碩士論文，臺北市。未出版。
葉春暉（1987）。淡水河系-南勢溪。臺北市 : 聯經總經銷。
葉春暉（1989）。臺灣溪釣全集 第一輯。臺北市 :聯經總經銷。
葉春暉（1991）。臺灣溪釣全集 第二輯。臺北市 : 聯經總經銷。
張樹安（2010）。3D擴增實境應用於行動導覽之研究。國立政治大學數位內容碩士學位學程碩士論文，臺北市。未出版。
維基百科（2011）。超級移動電腦。取自http://zh.wikipedia.org/wiki/%E8%B6%85%E7%B4%9A%E7%A7%BB%E5%8B%95%E9%9B%BB%E8%85%A6。(2011/07/27瀏覽)
臺灣魚類資料庫。http://fishdb.sinica.edu.tw/。(2010/05/01瀏覽)
薛大龍、羅鐵清（2005）。信息系統監理師應試輔導暨案例分析。北京：人民郵電出版社。
Android Market. (2011). hiPage搜go。取自https://market.android.com/details?id=com.chyp.hipagesogo&feature=search_result。(2011/08/21瀏覽)。
Android Market. (2010). 拜拜online。取自https://market.android.com/details?id=baiBai.OnlineLite&feature=search_result。(2011/08/21瀏覽)。
Ann, S., & Susan, C.W. (2009). “Teach a Man to Fish”: The Sustainability Doctrine and Its Social Consequences.World Development, 37(7), 1182-1196.
Ardito, C., Buono, P., Costabile, M., Lanzilotti, R., & Pederson, T. (2007) . Re-experiencing History in Archaeological Parks by Playing a Mobile Augmented Reality Game. Proceedings of the 2007 OTM confederated international conference on the move to meaningful internet systems.
Augmented Reality Browser:Layar(2009).Layar. Retrieved September 18, 2010 from http://www.layar.com/
Azuma, R. (1997). A Survey of Augmented Reality. Teleoperators and Virtual Environments, 6(4), 355-385.
Bruns, E., Brombach, B., Zeidler, T., & Bimber, O. (2007). Enabling mobile phones to support large-scale museum guidance. Multimedia, IEEE, 14(2):16–25.
Burdea, G. C., & Coiffet, P. (2003). Virtual Reality Technology. Wiley-IEEE Press.
Carmigniani J., Furht, B., Anisetti, M., Ceravolo, P., Damiani E., & Ivkovic, M. (2011). Augmented reality technologies, systems and applications . Multimedia Tools and Applications, 51(1), 341-377.
Edris , I.(2009). Mobile learning and video games. MSc Computer and Internet Technologies University of Strathclyde.
Feiner, S., MacIntyre, B., Hollerer, T. & Webster, A. (1997). A touring machine:prototyping 3D mobile augmented reality systems for exploring the urban environment. Personal Technologies, 1(4), 208-217.
Ford, P. M. (1981). Principles and practices of outdoor/environmental education. New York: John Wiley & Sons.
Ford, P., & Blanchard, J. (1993). Leadership administration for outdoor pursuits. State College, PA: Venture Publishing Inc.
Geertman, S. (2002). Participatory planning and GIS: A PSS to bridge the gap. Environment and Planning B: Planning and Design, 29, 21-35.
Henrysson, A., Billinghurst, M., & Ollila, M. (2005). Face to Face Collaborative AR on Mobile Phones. Proceedings of the 4th IEEE/ACM International Symposium on Mixed and Augmented Reality (ISMAR 05), 80-89.
Herbst, I., Braun, A., Mccall, R., & Broll, W. (2008). Timewarp: interactive time travel with a mobile mixed reality game. Proceedings of the 10th international conference on Human computer interaction with mobile devices and services, 235-244.
Höllerer, T., Feiner, S., & Pavlik, J. (1999). Situated documentaries: Embedding multimedia presentations in the real world. Proceedings of the Third IEEE International Symposium on Wearable Computers (ISWC 99), 79-86.
Höllerer, T., Feiner, S., Terauchi, T., Rashid, G., & Hallaway, D. (1999). Exploring MARS: Developing indoor and outdoor user interfaces to a mobile augmented reality system. Computers and Graphics, 779-785.
Liarokapis, F., & Freitas, S. (2010). A case study of augmented reality serious games. Looking toward the future of Technology-Enhanced Education: Ubiquitous Learning and the Digital Native , 178-191.
Matthews, B. E.,& Krasny, M. E. (1990). New York's Sportfishing and Aquatic Resources Education Program.Conservationist, 45(2), 36-39.
Milgram, P., Takemura, H., Utsumi, A., & Kishino, F. (1994). Augmented Reality: A Class of Displays on the Reality-Virtuality Continuum. Proceedings of Telemanipulator and Telepresence Technologies. SPIE v.2351, 282-292.
Miyashita, T., Meier, P., Tachikawa, T., Orlic, S., Eble, T., Scholz, V., Gapel, A., Gerl, O., Arnaudov, S., & Lieberknecht, S. (2008). An augmented reality museum guide. Proceedings of the 7th IEEE/ACM International Symposium on Mixed and Augmented Reality(ISMAR 08),103-106.
Nokia Research Center. (2010). MARA. Retrieved September 16, 2010 from http://research.nokia.com/page/219.
Papagiannaki, G., Singh, G., & Magnenat-Thalmann, N. (2008). A survey of mobile and wireless technologies for augmented reality systems. Computer Animation and Virtual Worlds, 19, 3-22.
Oliver, S. (2011). Apple exploring iPads with translucent, synchronized displays for augmented reality. Retrieved July 12, 2011 from http://www.appleinsider.com/articles/11/07/07/apple exploring ipads with translucent synchronized displays for augmented reality.html.
Rohs, M., & Gfeller, B. (2004). Using Camera-Equipped Mobile Phones for Interacting with Real-World Objects. Advances in Pervasive Computing, 265-271.
Sutherland, I. E.(1968). A Head-Mounted Three Dimensional Display. Proceedings of Fall Joint Computer Conference, 757-764.
Thomas, B. H., Demczuk, V., Piekarski, W., Hepworth, D., & Gunther, B. (1998). A wearable computer system with augmented reality to support terrestrial navigation. Proceedings of Second IEEE International Symposium on Wearable Computers (ISWC '98), 168-171.
Tudor, M. T., Dvornich, K. M. (2001). The NatureMapping Program: Resource Agency Environmental Education Reform. Journal of Environmental Education, 32(2), 8-14.
Vlahakis, V., Karigiannis, J., Tsotros, M., Gounaris, M., Almeida, L., Stricker, D., Gleue, T., Christou, I., Carlucci, R., & Ioannidis, N. (2001). ARCHEOGUIDE: First results of an Augmented Reality, Mobile Computing System in Cultural Heritage Sites. Proceedings of Virtual Reality, Archaeology, and Cultural Heritage International Symposium (VAST01), 131-140.
Weiser, M. (1991).The computer for the 21st century. Scientific American, 265(3), 94-104.
Wikitude. (2008). Wikitude.Retrieved September 18, 2010 from http://www.wikitude.com/
Yerkes, R., & Haras, K. (1997). OutdoorEducation and Environmental Responsibility. ERIC Clearinghouse on Rural Education and Small School. (ERIC Digest EDO-RC-97-6)