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    題名: 中小學校長智慧領導素養指標建構之研究:模糊德懷術之應用
    Research on the Indicators Construction of Intelligent Leadership Competencies for Elementary and Secondary school Principals: An Application of Fuzzy Delphi Method
    作者: 許懷智
    Hoi, Wai-Chi
    貢獻者: 張奕華
    Chang, I-Hua
    許懷智
    Hoi, Wai-Chi
    關鍵詞: 智慧領導素養
    模糊徳懷術
    層級分析法
    指標建構
    權重體系
    Intelligent leadership competencies
    Fuzzy delphi
    Analytic hierarchy process
    Indicators construction
    Weight system
    日期: 2020
    上傳時間: 2020-08-03 18:27:15 (UTC+8)
    摘要: 本研究旨在建構中小學校長智慧領導素養指標及權重體系,讓校長在經營學校時有明確的參考及依據,使智慧校園得以順利運作及發展。本研究採用模 糊徳懷術,以領導、智慧教育或資訊科技教育領域的學者專家、教育領域的行 政機關人員及智慧學校校長共計10 人為研究對象,建構中小學校長智慧領導素 養指標體系,最後再以層級分析法進行相對權重問卷調查,輔以Expert Choice 軟體進行統計分析以建立各項指標之權重。根據本研究之結果與分析,歸納其結論如下:
    一、本研究所建構出之中小學校長智慧領導素養指標及權重體系包含六個層面 33 項指標。
    二、本研究所建構出之中小學校長智慧領導素養指標六個層面依其重要性,分別為「倡導智慧教學」(32.6%);「推動智慧學習」(32.5%);「推行智慧行政」(18.4%);「營造智慧環境」(7.5%);「建置智慧保健」(4.8%);「應用智慧綠能」(4.2%)。
    三、本研究建構出之中小學校長智慧領導素養指標共33 項,在「倡導智慧教 學」方面,首重「學校提供數位學習資源」;在「倡導智慧教學」方面,昔 著重「掌握學生即時的學習成效」;在「建置智慧保健」中,以「建置或運 用健康監測系統」最為重要;在「推行智慧行政」中,最重視「建置或善 用校務行政管理平臺」;在「營造智慧環境」中,以「建置校園安全監測管 理系統」最為重要;在「應用智慧綠能」中,最重視「建置智慧感知器管 理系統,通過感知環境的狀態調整設施的運作,以降低能源消耗」。
    透過本研究結果,可為教育行政機關、校長及後續研究者提供參考及依據。
    This research targets at constructing indicators and weight system of intelligent leadership for principals in primary and secondary schools so as to make them have clear reference and basis in running schools, and realize smooth operation and development of intelligent campus. In this research, Fuzzy Delphi Method is used, and a total of 10 persons are selected as the research objects, including the scholars and experts engaging in the fields of leadership, intelligent education or information technology education as well as the administrative personnel in the field of education and the principals in intelligent schools, to establish the indicators system of intelligent leadership for principals in primary and secondary schools. And finally, AHP (Analytic hierarchy process) is used to conduct relative weight questionnaire survey, and Expert Choice software is used to conduct statistical analysis to establish the weight of each index. According to the results and analysis of this study, the conclusions are summarized as follows:
    1. The indicators of intelligent leadership competencies for elementary and secondary school principals involves six levels and 33 indexes.
    2. The indicators and weight system of wise leadership for principals in primary and secondary schools involves six levels. From the perspective of importance, the six levels are successively [Advocating intelligent teaching] (32.6%), [Promoting intelligent learning] (32.5%), [Promoting intelligent administration] (18.4%), [Building intelligent environment] (7.5%), [Forming intelligent health care] (4.8%), [Applying intelligent green power] (4.2%).
    3. In this study, 33 indicators of intelligent leadership competencies for elementary and secondary school principals were constructed. In terms of [Promoting intelligent learning], "schools provide digital learning resources" was the first priority. In terms of [Advocating intelligent teaching], the first priority is "mastering students` immediate learning results". In [Forming intelligent health care], "building or using health monitoring system" is the most important. In [Promoting intelligent administration], the most important thing is to "build or make good use of the school administration platform". In [Building intelligent environment], "building campus security monitoring management system" is the most important. In the [Applying intelligent green power], the most important thing is to " Build a smart perceptron management system to reduce energy consumption by sensing the state of the environment and adjusting the operation of the facility".
    The results of this study can provide reference and basis for educational administration institutions, principals and follow-up researchers.
    參考文獻: 中文部分
    于長虹、王運武、馬武(2015)。智慧校園建設的現狀、問題與對策。教學與管理,6,44-51。
    王文科(1996)。有效的班級經營模式。教育實習輔導季刊,2(3),3-9。
    王春平、李捷、鄭偉、李文韜(2015)。基於卓越續效管理體系的智慧校園建設探討。教育資訊技術,10,16-19。
    王楓(2018)。面向2035的中小學智慧學校建設:層面、特徵與實踐。中國教育學刊,9,25-33。
    吳政達(2008)。教育政策分析——概念、方法與應用。臺北市:高等教育。
    吳清山(2015)。智慧教育。教育研究月刊,251,142-143。
    吳清山(2019)。智慧領導。教育研究月刊,300,132-133。
    呂倩(2011)。基於雲計算及物聯網構建智慧校園。電腦科學,38(10),18-21。
    李京澳、齊振國、趙瑩(2016)。智慧校園及其建設探究。軟體導刊,15(2),140-142。
    李莉(2012)。信息技術融入教學之思考。中國成人教育,3,104-107。
    沈潔、黃宇星(2011)。智慧校園及其構建初探。福建教育學院學報,6,122-125。
    阮亨中、吳柏林(2000)。模糊數學與統計應用。臺北市:俊傑書局。
    周彤、劉文(2011)。智慧校園建設的現狀與思考。資訊與電腦,10,86。
    林光媚(2016)。臺北市國民小學智慧校園指標建構之研究。國立政治大學學校行政碩士在職專班碩士論文(未出版),臺北市。
    林明地、梁金都(2016)。校長領導與學校集體智慧。臺北市:高教出版。
    林甦、任澤平(2009)。模糊德爾菲法及其應用。中國科技論壇,5,102-122。
    林進山(2016)。建構智慧校園永續發展的實務探究。教師天地,1(3),1-12。
    胡姝敬(2019)。智慧醫療的優勢、特點。電子技術與軟體工程,147(1), 249。
    胡欽太、鄭凱、林南暉(2014)。教育資訊化的發展轉型:從「數字校園」到「智慧校園」。中國電化教育,1,35-39。
    倪明選、張黔、譚浩宇、羅吳蔓、湯小溪(2013)。智慧醫療——從物聯網到雲計算。中國科學:資訊科學,43(4),515-528。
    孫志鴻(2017)。智慧地球與智慧城市。載於林俊全、周桂田(主編),氣候變遷下的國家發展藍圖(373-390頁),臺北市:國立臺灣大學全球變遷研究中心、國立臺灣大學社會科學院風險社會與政策研究中心。
    涂孝樸(2004)。資訊融入教學之意義及內涵之研究。國立臺灣師範大學工業教育研究所碩士論文(未出版),臺北市。
    高知旭(2018)。資訊系統集成在企業智慧行政中的價值與策略。科技經濟導刊,26(21),21-23。
    張奕華(2013)。智慧教育與智慧學校理念。中國資訊技術教育,6,15-17。
    張奕華、吳權威(2014)。智慧教育:理念與實踐。臺北市:網奕資訊科技。
    張奕華、吳權威、曾秀珠、張奕財、陳家祥(2020)。智慧學校校長科技領導: 理論實務與案例。臺北市:五南。
    張紹勳(2012)。模糊多準則評估法及統計。臺北市:五南。
    教育部(2015)。十二年國民基本教育領域課程綱要:核心素養發展手冊。取自https://ws.moe.edu.tw/001/Upload/23/relfile/8006/51358/9df0910c-56e0-433a-8f80-05a50efeca72.pdf
    許曄、孟弘、程家瑜、郭鐵成(2010)。IBM「智慧地球」戰略與我國的對策,中國科技論壇,4,20-23。
    郭吉模(2003)。現行資訊融入教學推展的問題及因應策略。學校行政,28,86-95。
    野中郁次郎、竹內弘高(2011年5月)。成為智慧型領導人。哈佛商業評論‧與世界一流管理接軌。取自https://www.hbrtaiwan.com/article_content_AR0001737.html
    陳利銘(2006)。智慧領導模式的評論及其教育實踐。學校行政,44,136-144。
    湯志民(2018)。智慧校園(Smart Campus)的行政管理與運作。載於中國教育學會主編,邁向教育4.0:智慧學校的想像與建構(173‒201頁)。臺北市:學富文化。
    湯志民(2019)。智慧校園 (Smart Campus) 的理念與推展。學校行政,121, 125-140。
    黃榮懷、張進寶、胡永斌、楊俊鋒(2012)。智慧校園:數位校園發展的必然趨勢。開放教育研究,18(4),12-17。
    黃德祥(2008)。青少年發展與輔導。臺北市:五南。
    楊鎮華、蔣旭政(2011)。如何使用資訊科技強化我國大學教育投資效率。前瞻科技與管理,1(1),15-33。
    維基百科(2019)。Microsoft Excel。取自https://zh.wikipedia.org/wiki/Microsoft_Excel
    趙秋錦、楊現民、王帆(2014)。智慧教育環境的系統模型設計。現代教育技術,24(10),12-18。
    劉天祥、佟中仁(譯)(1993)。FUZZY理論入門(原作者:向殿政男)。臺北市:中國生產力中心。(原著出版年:1990)
    劉林榮(2013)。南港小學的智慧學校藍圖。中國資訊技術教育,6,18-19。
    蔡金田(2018)。智慧學校。臺北市:元華文創。
    蔡清田(2011)。課程改革中的「素養」。幼兒教保研究,7,1-13。
    蔣東興、付小龍、袁芳、吳海燕、劉啟新(2015)。大數據背景下的高校智慧校園建設探討。華東師範大學學報(自然科學版),1,119-125。
    英文部分
    Aion, N., Helmandollar, L., Wang, M., & Ng, J. W. (2012, December). Intelligent campus (icampus) impact study. Proceedings of the The 2012 IEEE/WIC/ACM International Joint Conferences on Web Intelligence and Intelligent Agent Technology, 291-295.
    Barman, B. K., Yadav, S. N., Kumar, S., & Gope, S. (2018). IOT based smart energy meter for efficient energy utilization in smart grid. 2018 2nd International Conference on Power, Energy and Environment: Towards Smart Technology (ICEPE), 1-5. doi: 10.1109/EPETSG.2018.8658501
    Bokoro, P., Paul, B., & Doorsamy, W. (2019). Towards smart teaching and learning: A study in a south african institution of higher learning. 2019 IEEE 28th International Symposium on Industrial Electronics (ISIE), 1595-1598. doi: 10.1109/ISIE.2019.8781425
    Chen, S. J., & Hwang, C. L. (1992). Fuzzy multiple attribute decision making
    methods and application. New York, NY: Springer-Verlag
    Chen, S. Y., & Huang, J. T. (2012). A smart green building: An environmental health control design. Energies, 5(5), 1648-1663.
    EBTIC (2010). The intelligent campus. Retrieved from https://www.ebtic.org/pages/the-intelligent-campus
    Harthy, K. A., Puteh, H. F. H., & Harthy, K. A. (2019). Investigates review of leadership challenges in a smart environment. 2019 4th MEC International Conference on Big Data and Smart City (ICBDSC), 1-4. doi: 10.1109/ICBDSC.2019.8645566.
    IBM (2010). Building the smarter campus. Retrieved from https://www-950.ibm.com/events/wwe/cio/10menacio.nsf/Smarter%20Cities_Patricia%20Sullivan.pdf
    Islam, S (2019). Iot-based smart campus: An exploratory study of the effect of administration, instructors and student`s awareness levels on adopting iot-based smart campus. Retrieved from https://www.academia.edu/39137145/IoT-based_Smart_Campus_An_exploratory_study_of_the_effect_of_administration_instructors_and_students_awareness_levels_on_adopting_IoT-based_Smart_Campus_Chapter_1?auto=download
    Jerald, V., Rabara, A., & Premila, D. (2015). Internet of things (iot) based smart environment integrating various business applications. International Journal of Computer Applications, 128(8), 32-37.
    Lee, J. H., & Kim. H. Y. (2016). Implementation of smart teaching 3.0: Mobile-based self-directed efl teacher professional development. The Journal of Asia TEFL, 13(4), 331-346.
    Liu, C. L., Xie, Z. F., & Peng, P. (2009). A discussion on the framework of smarter campus. 2009 Third International Symposium on Intelligent Information Technology Application, 2, 479-482.
    Liu, W. (2016). Campus management strategy research under the environment of big data. 2016 International Conference on Intelligent Transportation, Big Data & Smart City (ICITBS), 195-199. doi: 10.1109/ICITBS.2016.56
    LugoSantiago, J. (2018, Sep). Smart leadership for smart city success. Smart Cities World. Retrieved from https://www.smartcitiesworld.net/opinions/opinions/smart-leadership-for-smart-city-success
    Muhamad, W., Kurniawan, N. B., & Yazid, S. (2017). Smart campus features, technologies, and applications: A systematic literature review. 2017 International Conference on Information Technology Systems and Innovation , 384-391. doi: 10.1109/ICITSI.2017.8267975
    Natarajan, K., Prasath, B., & Kokila, P. (2016). Smart health care system using internet of things. Journal of Network Communications and Emerging Technologies (JNCET), 6(3), 38-42.
    Nelaturu, S. C. B., Kambham, R., Karna, N. J., Parupalli, R., & Mandula, K. (2010). Building intelligent campus environment utilizing ubiquitous learning. 2010 International Conference on Technology for Education, 230-231. doi: 10.1109/ T4E.2010.5550103
    Ng, J. W., Azarmi, N., Leida, M., Saffre, F. , Afzal, A , & Yoo, P. D. (2010).The intelligent campus (icampus): End-to-end learning lifecycle of a knowledge ecosystem. In Intelligent Environments, 2010 Sixth International Conference on, 332-337. doi: 10.1109 / IE.2010.68
    Park, J. H., Pan, Y., Chao, H. C., & Yen, N. Y. (2015). Ubiquitous systems towards green, sustainable, and secured smart environment. The Scientific World Journal, 1-3. doi: 10.1155/2015/281921
    Pramanik, M. I., Lau, R. Y., Demirkan, H., & Azad, M. A. K. (2017). Smart health: Big data enabled health paradigm within smart cities. Expert Systems with Applications, 87, 370-383.
    Reza, K., & Vassilis, S. M. (1988). Theory and methodology delphic hierarchy process (DHP): A methodology for priority setting derived from the delphi method and analytical hierarchy process. European Journal of Operational Research, 37(3), 347-354.
    Saaty, T. L. (1977). A scaling method for priorities in hierarchical structures. Journal of Mathematical Psychology, 15(3), 234-281.
    Spector, J. M. (2014). Conceptualizing the emerging field of smart learning environments. Smart Learning Environments, 1(1), 1-10.
    Vinod, M., Vinay, H. S., & Prathap, M. (2017). Smart school. 2017 International Conference On Smart Technologies For Smart Nation (SmartTechCon), 1424-1427. doi: 10.1109/SmartTechCon.2017.8358599
    Wang, Z. J. (2011). A new type of intelligent network security model of the campus study. 2011 3rd International Conference on Computer Research and Development, 325-329. doi: 10.1109/ICCRD.2011.5764142
    Weinert, F. E. (2001). Concepts of competence: A conceptual clarification. Seattle, WA: Hogrefe & Huber.
    Xiao, N. (2013). Constructing smart campus based on the cloud computing platform and the internet of things. Proceedings of the 2nd International Conference on Computer Science and Electronics Engineering (pp. 1576-1578). Paris, FRA: Atlantis Press.
    描述: 碩士
    國立政治大學
    教育行政與政策研究所
    107171015
    資料來源: http://thesis.lib.nccu.edu.tw/record/#G0107171015
    資料類型: thesis
    DOI: 10.6814/NCCU202000869
    顯示於類別:[教育行政與政策研究所 ] 學位論文

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