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題名 「知識翻新」理論與科技應用於師資培育之教學設計與實施策略(I) 其他題名 Instructional Design and Implementation Strategies of Knowledge Building Theory and Technology in a Teacher-Education Program 作者 洪煌堯 貢獻者 國立政治大學教育學系
行政院國家科學委員會關鍵詞 知識翻新理論與科技; 知識論壇平台; 教學設計; 實施策略; 師資培育
Knowledge building; Knowledge Forum technology; Instructional design; implementation strategies; teacher education日期 2010 上傳時間 29-十一月-2012 11:21:56 (UTC+8) 摘要 「知識翻新」理論與科技應用於師資培育之教學設計與實施策略在資訊社會及知識經濟的影響下,將「學習」視為「知識創造」與「教學」視為「創新實踐」歷程的觀點也逐漸受到重視(Hong & Sullivan, 2009; Paavola, Lipponen, & Hakkarainen, 2004; Sawyer, 2006)。然而,有什麼樣的學習理論和教學方法可以有效地支持這種以創新為中心的教與學仍有待進一步探究。面對此一挑戰,「知識翻新」理論與科技也許是一可行方案 (Scardamalia & Bereiter, 2006)。在「劍橋學習科學參考手冊」(Cambridge Handbook of the Learning Sciences) (Sawyer, 2006)一書中,知識翻新被認為是基礎學習與教學科學(learning and instructional sciences)的六大教育創新方法之一(其他方法包括「建構主義」、「認知學徒制」、「情境學習」、「科學化的學習」…等);知識翻新也被「維基百科」、「大英百科全書第五版」,以及「教育心理學參考手冊」(Handbook of Educational Psychology)(Alexander & Winne, 2006, 2nd Edition)列為是當代重要教育改革的主要方法之一。基於上述緣因,本研究試圖於三年內將知識翻新理論與科技逐漸地引入一師資培育課程之中。研究方法擬採用「設計本位研究法」(Design-Based Research),針對三種不同但相互關聯的教學設計模式進行實驗─包括「以想法為中心」、「以社群為基礎」、和「以原則作導引」的三種教學設計模式(詳見 Hong & Sullivan, 2009)。本研究擬於三年內收集兩大類資料:歷程與結果資料。主要的歷程資料將包括:(1) 師培生三年內在知識論壇(知識論壇係一以知識翻新理念所設計的多媒體網路平台) 上的線上討論過程與內容;(2) 教室活動及學生訪談的影音紀錄;以及 (3)教室中所進行的民俗誌研究和參與觀察。主要的結果資料將包括:(1)師培生對自然科學的知識觀調查;(2)師培生對於課室以及線上平台所感受的創造氛圍的調查;以及(3)師培生在實際科學教學演練上的改變歷程調查。資料將同時以質化與量化並呈的混合研究法來分析。在質化分析方面將使用內容分析法(Strauss & Corbin, 1990)、對話分析和語料分析(Chi, 1997),以及社會網路分析(Scott, 1991);量化分析方面則將運用敘述統計和推論統計。經由反覆設計與再設計的循環,研究者期望能逐步找出影響知識翻新理論與科技應用在未來師資培育課程中的成功教學設計與實施策略,藉此以期許未來能培育出更多具創造力與適應性的21 世紀優質教師。
Instructional design and implementation strategies of knowledge building theory and technology in a teacher-education program Abstract. While the importance of viewing learning as “knowledge creation” and teaching as “creative practice” is gradually recognized in the information and knowledge societies (Hong & Sullivan, 2009; Paavola, Lipponen, & Hakkarainen, 2004; Sawyer, 2006), what constitutes an effective theoretical and pedagogical means to support creative learning and teaching remains to be explored. One way to address this challenge is perhaps knowledge building theory and technology (Scardamalia & Bereiter, 2006). Knowledge building is represented in the Cambridge Handbook of the Learning Sciences (Sawyer, 2006) as one of six breakthroughs in the foundational learning and instructional sciences (alongside constructionism, cognitive apprenticeship, situated learning, the science of learning, etc.). Knowledge building is also represented in Wikipedia, five Encyclopedias, and the Handbook of Educational Psychology (Alexander & Winne, 2006, 2nd Edition) as a promising alternative to education reform. In this proposed research, I intend to progressively introduce knowledge building theory and technology into a teacher-education program within three years. By adopting design based research (DBR) methodology, I will employ and test three different and yet related instructional design models, including idea-centered, community-based, and principle-guided (see Hong & Sullivan, 2009, for detail). There will be two general types of data collected within the three years: process and outcome data. The main process data will include: (1) teacher-education students’ 3-year online discourse recorded in Knowledge Forum (an online multimedia platform developed to support knowledge building); (2) video-taping of class activities and student interviews; and (3) ethnographic and participatory observation in the class settings and in the teaching cites. The major outcome data will include: (1) surveys with regard to teacher-education students’ epistemological views of science learning and teaching; (2) surveys concerning the creative climate of online Knowledge Forum settings and class settings as knowledge building environments; (3) changes in teacher-education students’ actual teaching practices in the domain of natural sciences. Data will be analyzed both qualitatively and quantitatively in a mixed manner by using content analysis (Strauss & Corbin, 1990), discourse analysis and verbal data analysis (Chi, 1997), and social network analysis (Scott, 1991), as well as quantitative, descriptive and inferential statistics. Through a repeated design and re-design cycle, I expect to progressively identify key design strategies for successful implementation of knowledge building theory and technology in a new teacher-education program, so that the ultimate goal of cultivating more creative and adaptive future teachers needed for the 21st century education can be more effectively achieved.
將「學習」視為「知識創造」與「教學」視為「創新實踐」歷程的觀點已逐漸在資訊社會中受到重視(Hong & Sullivan, 2009; Paavola, Lipponen, & Hakkarainen, 2004;Sawyer, 2006)。然而,如何可以有效地支持這種以創新為中心的教與學的相關理論和教學方法仍有待進一步研究。針對此一挑戰,本研究計畫運用一稱為「知識翻新」的建構論發展以創新為中心的教與學(Scardamalia & Bereiter, 2006)。知識翻新是一種透過集體共構知識、以不斷產生並修改對社群有價值的想法的一個知識歷程(Scardamalia & Bereiter, 2006)。本研究計畫以三年的時間,逐步將知識翻新的理論與科技引入一師資培育課程之中以進行實驗。目前第一年的研究主要是探討知識翻新對師培生的教學信念的影響。本研究之研究對象為修習「小學自然科學教材與教學法」課程的19位師培生。研究資料之一是來自一項有關知識信念的調查。初步研究結果指出在學期結束後,這些學生已能形成更具有以學生為中心的教學信念。While seeing learning as ’knowledge creation’ and teaching as ’creative practice’ is recognized as important in the information societies (Hong & Sullivan, 2009; Paavola, Lipponen, & Hakkarainen, 2004; Sawyer, 2006), what represents an effective pedagogical approach to foster creative learning and teaching remains to be studied. To address this challenge, the present research adopts an approach called knowledge building (Scardamalia & Bereiter, 2006). Knowledge building is defined as a social process focused on continual production and improvement of ideas of value to a community (Scardamalia & Bereiter, 2006). In this research, I planned to introduce knowledge building theory and technology in a teacher-education program over 3 years. In the first year specifically, our major research question is as follows: What might be the effects of knowledge building on teacher-education students’ teaching beliefs? Accordingly, we recruited 19 teacher-education students who took a course titled ’Teaching Methods in Elementary School Natural Sciences’ from a teacher-education program. Preliminary data mainly came from a survey with open-ended questions concerning beliefs in ideal teaching and learning. Our initial findings suggested that towards the end of the semester, science teacher-education students’ teaching became to change their teaching beliefs to become more student-centered.關聯 基礎研究
學術補助
研究期間:9908~ 10007
研究經費:678仟元資料類型 report dc.contributor 國立政治大學教育學系 en_US dc.contributor 行政院國家科學委員會 en_US dc.creator (作者) 洪煌堯 zh_TW dc.date (日期) 2010 en_US dc.date.accessioned 29-十一月-2012 11:21:56 (UTC+8) - dc.date.available 29-十一月-2012 11:21:56 (UTC+8) - dc.date.issued (上傳時間) 29-十一月-2012 11:21:56 (UTC+8) - dc.identifier.uri (URI) http://nccur.lib.nccu.edu.tw/handle/140.119/56122 - dc.description.abstract (摘要) 「知識翻新」理論與科技應用於師資培育之教學設計與實施策略在資訊社會及知識經濟的影響下,將「學習」視為「知識創造」與「教學」視為「創新實踐」歷程的觀點也逐漸受到重視(Hong & Sullivan, 2009; Paavola, Lipponen, & Hakkarainen, 2004; Sawyer, 2006)。然而,有什麼樣的學習理論和教學方法可以有效地支持這種以創新為中心的教與學仍有待進一步探究。面對此一挑戰,「知識翻新」理論與科技也許是一可行方案 (Scardamalia & Bereiter, 2006)。在「劍橋學習科學參考手冊」(Cambridge Handbook of the Learning Sciences) (Sawyer, 2006)一書中,知識翻新被認為是基礎學習與教學科學(learning and instructional sciences)的六大教育創新方法之一(其他方法包括「建構主義」、「認知學徒制」、「情境學習」、「科學化的學習」…等);知識翻新也被「維基百科」、「大英百科全書第五版」,以及「教育心理學參考手冊」(Handbook of Educational Psychology)(Alexander & Winne, 2006, 2nd Edition)列為是當代重要教育改革的主要方法之一。基於上述緣因,本研究試圖於三年內將知識翻新理論與科技逐漸地引入一師資培育課程之中。研究方法擬採用「設計本位研究法」(Design-Based Research),針對三種不同但相互關聯的教學設計模式進行實驗─包括「以想法為中心」、「以社群為基礎」、和「以原則作導引」的三種教學設計模式(詳見 Hong & Sullivan, 2009)。本研究擬於三年內收集兩大類資料:歷程與結果資料。主要的歷程資料將包括:(1) 師培生三年內在知識論壇(知識論壇係一以知識翻新理念所設計的多媒體網路平台) 上的線上討論過程與內容;(2) 教室活動及學生訪談的影音紀錄;以及 (3)教室中所進行的民俗誌研究和參與觀察。主要的結果資料將包括:(1)師培生對自然科學的知識觀調查;(2)師培生對於課室以及線上平台所感受的創造氛圍的調查;以及(3)師培生在實際科學教學演練上的改變歷程調查。資料將同時以質化與量化並呈的混合研究法來分析。在質化分析方面將使用內容分析法(Strauss & Corbin, 1990)、對話分析和語料分析(Chi, 1997),以及社會網路分析(Scott, 1991);量化分析方面則將運用敘述統計和推論統計。經由反覆設計與再設計的循環,研究者期望能逐步找出影響知識翻新理論與科技應用在未來師資培育課程中的成功教學設計與實施策略,藉此以期許未來能培育出更多具創造力與適應性的21 世紀優質教師。 en_US dc.description.abstract (摘要) Instructional design and implementation strategies of knowledge building theory and technology in a teacher-education program Abstract. While the importance of viewing learning as “knowledge creation” and teaching as “creative practice” is gradually recognized in the information and knowledge societies (Hong & Sullivan, 2009; Paavola, Lipponen, & Hakkarainen, 2004; Sawyer, 2006), what constitutes an effective theoretical and pedagogical means to support creative learning and teaching remains to be explored. One way to address this challenge is perhaps knowledge building theory and technology (Scardamalia & Bereiter, 2006). Knowledge building is represented in the Cambridge Handbook of the Learning Sciences (Sawyer, 2006) as one of six breakthroughs in the foundational learning and instructional sciences (alongside constructionism, cognitive apprenticeship, situated learning, the science of learning, etc.). Knowledge building is also represented in Wikipedia, five Encyclopedias, and the Handbook of Educational Psychology (Alexander & Winne, 2006, 2nd Edition) as a promising alternative to education reform. In this proposed research, I intend to progressively introduce knowledge building theory and technology into a teacher-education program within three years. By adopting design based research (DBR) methodology, I will employ and test three different and yet related instructional design models, including idea-centered, community-based, and principle-guided (see Hong & Sullivan, 2009, for detail). There will be two general types of data collected within the three years: process and outcome data. The main process data will include: (1) teacher-education students’ 3-year online discourse recorded in Knowledge Forum (an online multimedia platform developed to support knowledge building); (2) video-taping of class activities and student interviews; and (3) ethnographic and participatory observation in the class settings and in the teaching cites. The major outcome data will include: (1) surveys with regard to teacher-education students’ epistemological views of science learning and teaching; (2) surveys concerning the creative climate of online Knowledge Forum settings and class settings as knowledge building environments; (3) changes in teacher-education students’ actual teaching practices in the domain of natural sciences. Data will be analyzed both qualitatively and quantitatively in a mixed manner by using content analysis (Strauss & Corbin, 1990), discourse analysis and verbal data analysis (Chi, 1997), and social network analysis (Scott, 1991), as well as quantitative, descriptive and inferential statistics. Through a repeated design and re-design cycle, I expect to progressively identify key design strategies for successful implementation of knowledge building theory and technology in a new teacher-education program, so that the ultimate goal of cultivating more creative and adaptive future teachers needed for the 21st century education can be more effectively achieved. en_US dc.description.abstract (摘要) 將「學習」視為「知識創造」與「教學」視為「創新實踐」歷程的觀點已逐漸在資訊社會中受到重視(Hong & Sullivan, 2009; Paavola, Lipponen, & Hakkarainen, 2004;Sawyer, 2006)。然而,如何可以有效地支持這種以創新為中心的教與學的相關理論和教學方法仍有待進一步研究。針對此一挑戰,本研究計畫運用一稱為「知識翻新」的建構論發展以創新為中心的教與學(Scardamalia & Bereiter, 2006)。知識翻新是一種透過集體共構知識、以不斷產生並修改對社群有價值的想法的一個知識歷程(Scardamalia & Bereiter, 2006)。本研究計畫以三年的時間,逐步將知識翻新的理論與科技引入一師資培育課程之中以進行實驗。目前第一年的研究主要是探討知識翻新對師培生的教學信念的影響。本研究之研究對象為修習「小學自然科學教材與教學法」課程的19位師培生。研究資料之一是來自一項有關知識信念的調查。初步研究結果指出在學期結束後,這些學生已能形成更具有以學生為中心的教學信念。While seeing learning as ’knowledge creation’ and teaching as ’creative practice’ is recognized as important in the information societies (Hong & Sullivan, 2009; Paavola, Lipponen, & Hakkarainen, 2004; Sawyer, 2006), what represents an effective pedagogical approach to foster creative learning and teaching remains to be studied. To address this challenge, the present research adopts an approach called knowledge building (Scardamalia & Bereiter, 2006). Knowledge building is defined as a social process focused on continual production and improvement of ideas of value to a community (Scardamalia & Bereiter, 2006). In this research, I planned to introduce knowledge building theory and technology in a teacher-education program over 3 years. In the first year specifically, our major research question is as follows: What might be the effects of knowledge building on teacher-education students’ teaching beliefs? Accordingly, we recruited 19 teacher-education students who took a course titled ’Teaching Methods in Elementary School Natural Sciences’ from a teacher-education program. Preliminary data mainly came from a survey with open-ended questions concerning beliefs in ideal teaching and learning. Our initial findings suggested that towards the end of the semester, science teacher-education students’ teaching became to change their teaching beliefs to become more student-centered. - dc.language.iso en_US - dc.relation (關聯) 基礎研究 en_US dc.relation (關聯) 學術補助 en_US dc.relation (關聯) 研究期間:9908~ 10007 en_US dc.relation (關聯) 研究經費:678仟元 en_US dc.subject (關鍵詞) 知識翻新理論與科技; 知識論壇平台; 教學設計; 實施策略; 師資培育 en_US dc.subject (關鍵詞) Knowledge building; Knowledge Forum technology; Instructional design; implementation strategies; teacher education en_US dc.title (題名) 「知識翻新」理論與科技應用於師資培育之教學設計與實施策略(I) zh_TW dc.title.alternative (其他題名) Instructional Design and Implementation Strategies of Knowledge Building Theory and Technology in a Teacher-Education Program en_US dc.type (資料類型) report en
