研究生: |
陳靖宜 Chen, Ching-Yi |
---|---|
論文名稱: |
桌上遊戲應用於高職智能障礙學生職業知識教學之探究 Exploring the Application of a Board Game in Vocational Knowledge Teaching for Senior High School Students with Intellectual Disability |
指導教授: |
張千惠
Chang, Chien-Huey |
口試委員: |
張千惠
Chang, Chien-Huey 何英奇 Ho, Ying-Chyi 侯惠澤 Hou, Huei-Tse |
口試日期: | 2022/09/16 |
學位類別: |
碩士 Master |
系所名稱: |
復健諮商研究所 Graduate Institute of Rehabilitation Counseling |
論文出版年: | 2022 |
畢業學年度: | 111 |
語文別: | 中文 |
論文頁數: | 134 |
中文關鍵詞: | 遊戲式學習 、桌上遊戲 、職業知識教學 、智能障礙學生 、學習動機 、心流經驗 、行為模式 |
英文關鍵詞: | game-based learning, board games, vocational knowledge teaching, students with intellectual disabilities, learning motivation, flow experience, behavioral patterns |
研究方法: | 準實驗設計法 |
DOI URL: | http://doi.org/10.6345/NTNU202205209 |
論文種類: | 學術論文 |
相關次數: | 點閱:240 下載:0 |
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近年興起的遊戲式學習,不少研究指出遊戲式學習有助於提升研究參與者的學習成效、動機等效益,其中桌上遊戲在遊戲規則、時間、參與人數等亦有著高度彈性之優點,非常適合運用於教學現場。
但目前較少針對職業教育相關課程進行遊戲式學習之教學,及為智能障礙學生設計一套職業教育桌上遊戲。因此,本研究以市面上現有的桌上遊戲118人力銀行,進行牌卡的修改與遊戲機制的調整,以符合智能障礙學生遊玩的桌上遊戲來作為教學媒材,並探究其學習成效、心流經驗、學習動機、遊戲接受度,及學習行為模式之表現。
本研究採用準實驗設計,研究對象為32名臺灣北部兩所就讀於高職的智能障礙學生並分為實驗組和控制組各16名。實驗組採遊戲式學習,控制組則接受一般講授方式,以進行各兩節職業知識教學。
從統計分析之研究結果,可歸納以下四點:
一、針對智能障礙學生之學習特質所設計的教學活動,亦有助於提升其學習成效並產生正向情意表現。
二、遊戲式學習有助於促進職智能障礙學生的學習動機、心流經驗並可降低其分心行為之比率。
三、智能障礙學生對於本研究所使用的「職業教育桌上遊戲」具有極高之接受度,亦顯示該桌上遊戲具備有用性、易用性及遊戲元素之三大向度之機制。
四、在依變項學習成效-後測、學習成效-延宕後測、心流經驗、學習動機、遊戲接受度中,除學習成效-延宕後測和心流經驗無顯著相關,其他變項彼此皆為顯著正相關。
從序列分析結果探討實驗組的學習行為模式,可歸納以下三點:
一、遊戲式學習提供智能障礙學生主動嘗試多元學習方法(如:牌卡文字線索、牌卡圖案線索、影片線索、知識討論、策略討論等學習方式)之機會。
二、高學習成效組會出現反思討論的行為表現,而低學習成效組的學習效益較為不佳。
三、高心流經驗組相較於低心流經驗組,更傾向嘗試多種策略答題,如:持續知識討論、知識討論轉換至策略討論、策略討論轉換牌卡操作,且高心流經驗組在分心後,仍可回到活動知識上繼續討論。
針對相關障礙特質所設計的教學活動是有助於提升智能障礙學生的學習成效,加上遊戲式學習與同儕協作機制的優點,可引發智能障礙者的學習動機、與同儕互動交流、正向情意產生、多元策略嘗試與反思等較為積極的學習行為與表現。此外,本研究也提出教學實務、未來研究之相關建議。
Game-based learning has become popular recently, it has been indicated by researchers that participants could have improvement in learning effectiveness, concentration, and other benefits. The advantage of board games is high flexibility in game rules, time, and attendance. It is highly suitable for operation in teaching sites.
Game-based learning for vocational education courses and vocational education board games is suitable for students with intellectual disabilities, but in reality this not available to all. Therefore, this research modified cards and adjusted game mechanics of board game from 118 Human Resource Bank to accommodate students with intellectual disabilities to learn by this teaching tool. In addition, it explores their learning effectiveness, flow experience, learning motivation, game acceptance, and learning behavior patterns.
This research adopted a quasi-experimental design. The research subjects were 32 students with intellectual disabilities from two vocational high schools in Northern Taiwan. They were divided into an experimental and control group of 16 students each. The experimental group and control group conducted two vocational knowledge teaching activities separately; the former used game-based learning and the latter used a lecture method.
According to the research results of statistical analysis, the following four points can be summarized:
1. The learning activities designed for students with intellectual disabilities based on their learning characteristics which can improve their learning effectiveness and produce positive affection.
2. Game-based learning not only helps promoting learning motivation and flow experience but also reduces the frequency of distracted behavior of students with intellectual disabilities.
3. The students with intellectual disabilities greatly accept the "Vocational Education Board game" in this research, which indicates that it has three dimensions of practicability, usability, and game elements.
4. Dependent variables include learning effectiveness posttest, learning effectiveness delayed posttest, flow experience, learning motivation, and game acceptance. All dependent variables have significant positive correlations with each other, except for learning effectiveness delayed posttest which has barely correlation with flow experience.
According to the sequential analysis results to discuss the learning behavior pattern of the experimental group, the following three points can be summarized:
1. Game-based learning provides students with intellectual disabilities an opportunity to try multiple learning ways actively (e.g. text clues in cards, picture clues in cards, film clues, knowledge discussions, and strategy discussions).
2. The high-learning effect group has the behavior of reflection and discussion; on the contrary, the learning effect of the low-learning effect group is relatively poor.
3. Compared with the low-flow experience group, the high-flow experience group inclines to try multiple strategies to answer questions (e.g. continuous knowledge discussions, the transform of knowledge discussions to strategy discussions, and the transform of strategy discussions to cards using), and they can continuously knowledge discuss after being distracted in the learning activities.
The vocational knowledge teaching activities which practically designed for students with intellectual disabilities can improve their learning effectiveness. The advantages of game-based learning and peer collaboration mechanisms can them lead to improve learning behaviors and performances, such as learning motivations, interactions with peers, positive affections, multi-strategy attempts, and reflections. Additionally, this study gives relative suggestions for teaching practice and future research.
王亭之(2021)。運用桌遊型式傳遞職業災害類型知識之學習成效評估。工業安全衛生(380),15-29。https://doi.org/10.6311/ishm.202102_(380).0004
何國華(2000)。啟智教育 (二版)。五南。
余美蓉(2017)。桌遊應用於屋頂作業勞工職業安全教育訓練之可行性研究[未出版之碩士論文〕。大仁科技大學。
吳秀照(2007)。台中縣身心障礙者就業需求:排除社會障礙的就業政策探討。社會政策與社會工作學刊,11(2),148-197。https://doi.org/10.6785/SPSW.200712.0148
呂美玲、邱佳寧、張淑蘋、簡吟文(2014年10月25日)。遊戲本位學習。新竹教育大學遊戲本位學習融入特殊教育之應用研討會,新竹市,臺灣。
技術及職業教育法(2019年12月31日)修正公布。https://law.moj.gov.tw/LawClass/LawAll.aspx?pcode=H0040028
李芃娟、張鈺娸 (2018)。桌上遊戲方案教學對聽損多重障礙幼兒社會技巧之介入成效。台灣遊戲治療學報(7),85-111。https://doi.org/10.6139/jtpt.201812_(7).0007
李岳霞(2018年12月04日)教孩子堅持不放棄!玩桌遊5大益處。親子天下。取自
https://www.parenting.com.tw/article/5067838
身心障礙及資賦優異學生鑑定辦法(2013年9月2日)修正公布。
https://law.moj.gov.tw/LawClass/LawAll.aspx?pcode=H0080065
身心障礙者鑑定作業辦法(2021年12月1日)修正公布。
https://law.moj.gov.tw/LawClass/LawAll.aspx?PCode=L0020020
周台傑、葉瓊華、詹文宏(2003)。啟智學校高職部學生就業轉銜服務現況與需求之研究。特殊教育學報(18),181-211。https://doi.org/10.6768/jse.200312.0181
周淑惠(2005)。鷹架引導策略。國教世紀,216,45-56。
林幸台(2019)。身心障礙者生涯輔導與轉銜服務(二版)。心理。
侯惠澤(2016)。遊戲式學習:啟動自學x喜樂協作,一起玩中學。親子天下。
侯惠澤、臺灣科大NTUSTMEG教育桌遊設計小組。(2018)。寓教於樂知識主
題桌上遊戲設計:含118人力銀行桌遊包(圖書+桌遊)。台科大。
施品禎(2012)。探討高職智能障礙學生就業轉銜服務理念與現況。南屏特殊教育,(3),57-65。
洪榮照(2015)。智能障礙者之教育。於王科文主編。特殊教育導論(第二版,頁84-118)。五南。
翁士恆(2014)。從心智遲緩MR到智能障礙ID:去汙名化與跨系統的合作可能。輔導季刊,50(4),35-38。
耿書涵(2019)。情境脈絡線索作為認知鷹架結合擴增實境的中學反毒教育桌上遊戲之學習成效與行為模式分析〔未出版之碩士論文〕。國立臺灣科技大學。
張世彗(2020)。特殊教育導論:探究特殊需求學習者(二版)。五南。
張春興(2007)。教育心理學:三化取向的理論與實踐(重修二版)。臺灣東華。
張添洲。(2018)。職業教育與訓練。五南。
張雅惠、廖晨惠、詹蔭禎(2010)以普通推理能力的觀點探討智能障礙學生的
時間學習。特殊教育叢書-特殊教育現在與未來,(45433),53-60。
教育部(2018)。點亮技職之光。教育部技術及職業教育司。取自https://ws.moe.edu.tw/001/Upload/5/relfile/7801/63238/4bea115e-a795-4406-8fed-c0500912dc58.pdf
教育部(2019)。十二年國民基本教育身心障礙相關之特殊需求領域課程綱。取自
https://sencir.spc.ntnu.edu.tw/GoWeb/include/GetDBfilePDF.php?KeyID=2360960255d303753836e0-f01
教育部(2020)。各級學校特殊教育身心障礙類學生人數。取自
https://www.gender.ey.gov.tw/gecdb/Stat_Statistics_DetailData.aspx?sn=lJfP2d02jg3xheeDsGOZoQ%40%40&d=m9ww9odNZAz2Rc5Ooj%24wIQ%40%40
許芷瑋、李芃娟(2018)應用桌上遊戲教學對國小智能障礙學生功能性詞彙之學習成效。特殊教育與復健學報(34),49-74。
陳介宇、王沐嵐(2017年2月26日)。臺灣桌上遊戲研究與文獻之回顧分析。取自
https://sites.google.com/site/taiwanbgstudy/home
陳思諪(2020)。輔助國中生生涯探索之桌上遊戲設計〔未出版之碩士論文〕。國立政治大學。
陳昱宏、王偉丞(2021)。數學教學融入桌遊活動對學生學習動機與學習興趣影響之研究。國際數位媒體設計學刊,13(1),27-38。
陳瑋婷、陳佩玉、洪榮照、陳介宇(2020)。桌上遊戲結合社會技巧教學提升國小ADHD兒童社會適應之成效。特殊教育季刊(154),27-39。
https://doi.org/10.6217/seq.202003_(154).27-40
陸莉、黃玉枝、林秀錦、朱慧娟(2000)。智能障礙學生輔導手冊。國立台南師範學院。取自
https://www.pses.ptc.edu.tw/upload/0205100019.pdf
勞動部(2019)。108年身心障礙者勞動狀況調查報告。取自https://statdb.mol.gov.tw/html/svy08/0841all.pdf
曾顯智(2019)。桌上遊戲融入生涯發展課程之行動研究〔未出版之碩士論文〕。國立清華大學。
鈕文英(2003)。啟智教育課程與教學設計。心理。
黃心玫(2013)。桌上遊戲在國小資源班的教學應用。桃竹區特殊教育(22),28-41。
黃妤穎(2020)。直接教學法在國小特教班數學教學調整與應用。台東特教(52),1-5。
黃健泉(2012)。資訊科技融入教學對國中學生自然科學習動機與學習成就的影響-以磁場與電流磁效應單元為例〔未出版之碩士論文〕。國立彰化師範大學。
楊心怡(2013)。從認知負荷觀點探討鷹架輔助遊戲式學習於人體血液循環之研究。教育傳播與科技研究(106),65-78。https://doi.org/10.6137/rect.2013.106.04
蔡仁哲、陳嘉俊、陳佩琪、劉湘瑤、張俊彥(2020)。國小生物多樣性科學桌遊設計與教學應用。科學教育月刊(430),7-32。https://doi.org/10.6216/sem.202007_(430).0002
鄭雅文(2001)。網路化反省思考學習歷程檔案的設計與應用〔未出版之碩士論文〕。國立臺中教育大學。
戴依伶(2021)。桌上遊戲融入高職智能障礙學生同理能力培育之行動研究〔未出版之碩士論文〕。國立臺灣師範大學。
AAIDD. (2021). Definition of Intellectual Disability. from https://www.aaidd.org/intellectual-disability/definition
Admiraal, W., Huizenga, J., Akkerman, S., & Ten Dam, G. (2011). The concept of flow in collaborative game-based learning. Computers in Human Behavior, 27(3), 1185-1194.
https://doi.org/10.1016/j.chb.2010.12.013
Al-Azawi, R., Al-Faliti, F., & Al-Blushi, M. (2016). Educational gamification vs. game based learning: Comparative study. International Journal of Innovation, Management and Technology, 7(4), 132-136. https://doi.org/10.18178/ijimt.2016.7.4.659
Al Hazmi, A. N., & Ahmad, A. C. (2018). Universal Design for Learning to Support Access to the General Education Curriculum for Students with Intellectual Disabilities. World Journal of Education, 8(2), 66-72. https://doi.org/10.5430/wje.v8n2p66
Amrai, K., Motlagh, S. E., Zalani, H. A., & Parhon, H. (2011). The relationship between academic motivation and academic achievement students. Procedia – Social and Behavioral Sciences, 15, 399-402. https://doi.org/https://doi.org/10.1016/j.sbspro.2011.03.111
American Psychiatric Association. (2014). DSM-5精神疾病診斷準則手冊(台灣精神醫學會譯)。合記。(原著出版於2013)
Araban, S., Zainalipour, H., Saadi, R., Javdan, M., Sezide, K., & Sajjadi, S. (2012). Study of cooperative learning effects on self-efficacy and academic achievement in English lesson of high school students. Journal of Basic and Applied Scientific Research, 2(9), 8524-8526.
Ayriza, Y., Setiawati, F. A., Triyanto, A., Gunawan, N. E., Anwar, M. K., Budiarti, N. D., & Fadhilah, A. R. (2021). The effectiveness of quartet card game in increasing career knowledge in lower grade elementary school students. Current Psychology, 1-12.
https://doi.org/https://doi.org/10.1007/s12144-021-01687-7
Bakan, U., & Bakan, U. (2018). Game-based learning studies in education journals: A systematic review of recent trends. Actualidades Pedagógicas, 72(72), 119-145.
https://doi.org/https://doi.org/10.19052/ap.5245
Bakeman, R., & Gottman, J. M. (1997). Observing interaction: An introduction to sequential analysis. Cambridge university press. https://doi.org/10.1017/CBO9780511527685
Bayeck, R. Y. (2020). Examining board gameplay and learning: A multidisciplinary review of recent research. Simulation & Gaming, 51(4), 411-431.
BGG. (2021). Board Game Subdomains. from
https://boardgamegeek.com/browse/boardgamesubdomain
Chang, S. C. H., Kuo, C. C., Hou, H. T., & Koe, J. J. Y. (2022). Design and evaluation of a multi-sensory scaffolding gamification science course with mobile technology for learners with total blindness. Computers in Human Behavior, 128, 107085.
https://doi.org/https://doi.org/10.1016/j.chb.2021.107085
Cheng, C. H., & Su, C. H. (2012). A Game-based learning system for improving student's learning effectiveness in system analysis course. Procedia-Social and Behavioral Sciences, 31, 669-675. https://doi.org/10.1016/j.sbspro.2011.12.122
Cheung, S. K., & McBride, C. (2017). Effectiveness of parent–child number board game playing in promoting Chinese kindergarteners’ numeracy skills and mathematics interest. Early Education and Development, 28(5), 572-589.
https://doi.org/http://dx.doi.org/10.1080/10409289.2016.1258932
Chou, Y. S., Hou, H. T., Chang, K. E., & Su, C. L. (2021). Designing cognitive-based game mechanisms for mobile educational games to promote cognitive thinking: an analysis of flow state and game-based learning behavioral patterns. Interactive Learning Environments, 1-18.
https://doi.org/10.1080/10494820.2021.1926287
Cicchino, M. I. (2015). Using Game-Based Learning to Foster Critical Thinking in Student Discourse. Interdisciplinary Journal of Problem-Based Learning, 9(2).
https://doi.org/https://doi.org/10.7771/1541-5015.1481
Clarke, L., & Winch, C. (2007). Introduction. In Clarke, L., & Winch (Eds.), Vocational Education: International Approaches, Developments and Systems (pp. 1-18). Routledge.
https://doi.org/https://doi.org/10.4324/NOE0415380607
Davis, F. D. (1985). A technology acceptance model for empirically testing new end- user information systems: Theory and results [unpublished doctoral dissertation]. Massachusetts Institute of Technology.
Davis, F. D. (1989). Perceived usefulness, perceived ease of use, and user acceptance of information technology. MIS quarterly, 13(3) 319-340. https://doi.org/10.2307/249008
Dermitzaki, I., Stavroussi, P., Bandi, M., & Nisiotou, I. (2008). Investigating ongoing strategic behaviour of students with mild mental retardation: implementation and relations to performance in a problem-solving situation. Evaluation & Research in Education, 21(2), 96-110. https://doi.org/10.1080/09500790802152175
Dimitra, K., Konstantinos, K., Christina, Z., & Katerina, T. (2020). Types of Game-Based Learning in Education: A Brief State of the Art and the Implementation in Greece. European Educational Researcher, 3(2), 87-100. https://doi.org/10.31757/euer.324
Erez, G., & Peled, I. (2001). Cognition and metacognition: Evidence of higher thinking in problem-solving of adolescents with mental retardation. Education and Training in Mental Retardation and Developmental Disabilities, 83-93.
Fujimoto, T., Fukuyama, Y., & Azami, T. (2015, October 8-9). Game-based learning for youth career education with the card game ‘JobStar’ . The 9th European Conference on Games Based Learning, Nord-Trondelag University College Steinkjer, Norway.
Garris, R., Ahlers, R., & Driskell, J. E. (2002). Games, motivation, and learning: A research and practice model. Simulation & Gaming, 33(4), 441-467.
https://doi.org/https://doi.org/10.1177/1046878102238607
Gibson, V., & Douglas, M. (2013). Criticality: The experience of developing an interactive educational tool based on board games. Nurse Education Today,33(12), 1612-1616.
https://doi.org/https://doi.org/10.1016/j.nedt.2013.01.022
Gobet, F., Retschitzki, J., & de Voogt, A. (2004). Moves in mind: The psychology of board games. Psychology Press.
Gonzalo-Iglesia, J. L., Lozano-Monterrubio, N., & Prades-Tena, J. (2018). Noneducational board games in University Education. Perceptions of students experiencing Game-Based Learning methodologies. Revista LUsófona de Educação, 41(41), 45–62.
https://doi.org/10.24140/issn.1645-7250.rle41.03
Grigal, M., Hart, D., & Migliore, A. (2011). Comparing the transition planning, postsecondary education, and employment outcomes of students with intellectual and other disabilities. Career Development for Exceptional Individuals, 34(1), 4-17.
Hallahan, D. P., Kauffman, J. M., & Pullen, P. C. (2016). 特殊教育導論(張正芬、李姿瑩、黃澤洋、鄭臻貞、詹孟琦、洪雅惠、林玟秀、葛竹婷、陳怡慧、黃玉枝、林慶仁、李淑玲、佘永吉譯)。華騰文化。(原著出版於2015)
Hartt, M., Hosseini, H., & Mostafapour, M. (2020). Game on: Exploring the effectiveness of game-based learning. Planning Practice & Research, 35(5), 589-604.
https://doi.org/10.1080/02697459.2020.1778859
Hooshyar, D., Pedaste, M., Yang, Y., Malva, L., Hwang, G. J., Wang, M., Lim, H., & Delev, D. (2021). From Gaming to Computational Thinking: An Adaptive Educational Computer Game-Based Learning Approach. Journal of Educational Computing Research, 59(3), 383-409.
https://doi.org/10.1177/0735633120965919
Hou, H. T. (2015). Integrating cluster and sequential analysis to explore learners’ flow and behavioral patterns in a simulation game with situated-learning context for science courses: A video-based process exploration. Computers in Human Behavior, 48, 424-435.
https://doi.org/http://dx.doi.org/10.1016/j.chb.2015.02.010
Hou, H. T., & Chou, Y. S. (2012, November 26-30). Exploring the technology acceptance and flow state of a chamber escape game-Escape The Lab© for learning electromagnet concept. The 20th International Conference on Computers in Education (ICCE2012), Singapore.
Hou, H. T., & Keng, S. H. (2021). A Dual-Scaffolding Framework Integrating Peer-Scaffolding and Cognitive-Scaffolding for an Augmented Reality-Based Educational Board Game: An Analysis of Learners’ Collective Flow State and Collaborative Learning Behavioral Patterns. Journal of Educational Computing Research, 59(3), 547-573.
https://doi.org/10.1177/0735633120969409
Huizenga, J., Admiraal, W., Akkerman, S., & Dam, G. t. (2009). Mobile game‐based learning in secondary education: engagement, motivation and learning in a mobile city game. Journal of Computer Assisted Learning, 25(4), 332-344.
https://doi.org/10.1111/j.1365-2729.2009.00316.x
Hwang, G. J., Yang, L. H., & Wang, S. Y. (2013). A concept map-embedded educational computer game for improving students' learning performance in natural science courses. Computers & Education, 69, 121-130.
https://doi.org/https://doi.org/10.1016/j.compedu.2013.07.008
Ifenthaler D., Eseryel D., Ge X. (2012) Assessment for Game-Based Learning. In Ifenthaler D., Eseryel D., Ge X. (Eds) Assessment in Game-Based Learning. Springer.
https://doi.org/10.1007/978-1-4614-3546-4_1
Jabbar, A. I. A., & Felicia, P. (2015). Gameplay engagement and learning in game-based learning: A systematic review. Review of educational research, 85(4), 740-779.
https://doi.org/10.3102/0034654315577210
Jackson, S. A., & Marsh, H. W. (1996). Development and validation of a scale to measure optimal experience: The Flow State Scale. Journal of sport and exercise psychology, 18(1), 17-35.
Jacobs, J. E., & Paris, S. G. (1987). Children's Metacognition About Reading: issues in Definition, Measurement, and Instruction. Educational Psychologist, 22(3-4), 255-278.
https://doi.org/10.1080/00461520.1987.9653052
Kailani, S., Newton, R., Pedersen, S. (2019). Game-based learning and problem-solving skills: A systematic review of the literature. In Van Braak, J., Brown, M., Cantoni, L., Castro, M., Christensen, R., Davidson-Shivers, G.V., Bastiaens, T. (Eds.), EdMedia+ innovate learning (pp. 1109–1119). Association for the Advancement of Computing in Education.
Keller, J. M. (1987). Development and use of the ARCS model of instructional design. Journal of instructional development, 10(3), 2-10.
Kelly, T. L. (1939). The selection of upper and lower groups for the validation of testitems. Journal of Educational Psychology, 30, 17-24. https://doi.org/10.1037/h0057123
Khan, A., & Pearce, G. (2015). A study into the effects of a board game on flow in undergraduate business students. The International Journal of Management Education, 13(3), 193-201. https://doi.org/https://doi.org/10.1016/j.ijme.2015.05.002
Kiili, K. (2005). Digital game-based learning: Towards an experiential gaming model. The Internet and Higher Education, 8(1), 13-24. https://doi.org/10.1016/j.iheduc.2004.12.001
Kiili, K. (2006). Evaluations of an experiential gaming model. Human Technology, 2(2), 187-201. https://doi.org/http://dx.doi.org/10.17011/ht/urn.2006518
Kiili, K. (2007). Foundation for problem‐based gaming. British Journal of Educational Technology, 38(3), 394-404. https://doi.org/10.1111/j.1467-8535.2007.00704.x
Kirikkaya, E. B., Iseri, S., & Vurkaya, G. (2010). A board game about space and solar system for primary school students. Turkish Online Journal of Educational Technology-TOJET, 9(2), 1-13.
Landis, J. R., & Koch, G. G. (1977). The measurement of observer agreement for categorical data. Biometrics, 33 (1), 159-174.
Law, Q. P. S., Chung, J. W. Y., Leung, C. C., & Wong, T. K. S. (2015). Enhancement of self-efficacy and interest in learning English of undergraduate students with low English proficiency through a collaborative learning programme. American Journal of Educational Research, 3(10), 1284-1290. https://doi.org/10.12691/education-3-10-12
Lin, H. C. K., Lin, Y. H., Wang, T. H., Su, L. K., & Huang, Y. M. (2021). Effects of Incorporating Augmented Reality into a Board Game for High School Students’ Learning Motivation and Acceptance in Health Education. Sustainability, 13(6), 3333.
https://doi.org/https://doi.org/10.3390/su13063333
Lin, Y. C., Hsieh, Y. H., & Hou, H. T. (2015). Developing a Self-Report-Based Sequential Analysis Method for Educational Technology Systems:A Process-Based Usability Evaluation. Journal of Educational Computing Research, 53(1), 95-123. https://doi.org/10.1177/0735633115590772
Liu, H. Y., Chen, P. H., Chen, W. J., Huang, S. S., Chen, J. H., & Yao, C. T. (2021). The Effectiveness of a Board Game-Based Oral Hygiene Education Program on Oral Hygiene Knowledge and Plaque Index of Adults with Intellectual Disability: A Pilot Study. International Journal of Environmental Research and Public Health, 18(3), 946.
https://doi.org/https://doi.org/10.3390/ijerph18030946
Liu, M., Horton, L., Olmanson, J., & Toprac, P. (2011). A study of learning and motivation in a new media enriched environment for middle school science. Educational technology research and development, 59(2), 249-265. https://doi.org/10.1007/s11423-011-9192-7
Liu, T. Y. (2016). Using educational games and simulation software in a computer science course: learning achievements and student flow experiences. Interactive Learning Environments, 24(4), 724-744.
https://doi.org/https://doi.org/10.1080/10494820.2014.917109
McLaren, B. M., Adams, D. M., Mayer, R. E., & Forlizzi, J. (2017). A computer-based game that promotes mathematics learning more than a conventional approach. International Journal of Game-Based Learning, 7(1), 36-56. https://doi.org/10.4018/IJGBL.2017010103
Mishra, P., & Foster, A. (2007, Mar 26). The claims of games: A comprehensive review and directions for future research. Society for Information Technology & Teacher Education International Conference, San Antonio, Texas, USA.
Moreno, J., & Saldaña, D. (2005). Use of a computer-assisted program to improve metacognition in persons with severe intellectual disabilities. Research in developmental disabilities, 26(4), 341-357.
https://doi.org/https://doi.org/10.1016/j.ridd.2004.07.005
Nader-Grosbois, N. (2014). Self-perception, self-regulation and metacognition in adolescents with intellectual disability. Research in developmental disabilities, 35(6), 1334-1348.
https://doi.org/https://doi.org/10.1016/j.ridd.2014.03.033
Nakamura, J., & Csikszentmihalyi, M. (2014). The Concept of Flow. In M. Csikszentmihalyi (Ed.), Flow and the Foundations of Positive Psychology (pp. 239-263). Springer Netherlands.
https://doi.org/https://doi.org/10.1007/978-94-017-9088-8
Pivec, M. (2007). Play and learn: potentials of game‐based learning. British Journal of Educational Technology, 38(3), 387-393.
https://doi.org/https://doi.org/10.1111/j.1467-8535.2007.00722.x
Pratama, L. D., & Setyaningrum, W. (2018). GBL in math problem solving: Is it effective? International Journal of Interactive Mobile Technologies, 12(6), 101-110.
https://doi.org/https://doi.org/10.3991/ijim.v12i6.8658
Qian, M., & Clark, K. R. (2016). Game-based Learning and 21st century skills: A review of recent research. Computers in Human Behavior, 63, 50-58.
https://doi.org/https://doi.org/10.1016/j.chb.2016.05.023
Radzi, S. H. B. M., Ying, T. Y., Abidin, M. Z. Z., & Ahmad, P. A. (2020). The effectiveness of board game towards soft skills development for higher education. Elementary Education Online, 19(2), 94-106. https://doi.org/10.17051/ilkonline.2020.02.111
Reese, C., & Wells, T. (2007). Teaching academic discussion skills with a card game. Simulation & Gaming, 38(4), 546-555. https://doi.org/10.1177/1046878107308063
Satsangi, R., & Bofferding, L. (2017). Improving the numerical knowledge of children with autism spectrum disorder: The benefits of linear board games. Journal of Research in Special Educational Needs, 17(3), 218-226. https://doi.org/10.1111/1471-3802.12380
Shree, A., & Shukla, P. (2016). Intellectual Disability: definition, classification, causes and characteristics. Learning Community-An International Journal of Educational and Social Development, 7(1), 9-20. https://doi.org/10.5958/2231-458X.2016.00002.6
Siegel, S., & Castellan, N. J. (1988). Nonparametric Statistics for The Behavioral Sciences (2nd ed.). McGraw-Hill.
Siperstein, G. N., Parker, R. C., & Drascher, M. (2013). National snapshot of adults with intellectual disabilities in the labor force. Journal of Vocational Rehabilitation, 39(3), 157-165.
Sung, H. Y., & Hwang, G. J. (2013). A collaborative game-based learning approach to improving students' learning performance in science courses. Computers & Education, 63, 43-51. https://doi.org/http://dx.doi.org/10.1016/j.compedu.2012.11.019
ter Vrugte, J., de Jong, T., Wouters, P., Vandercruysse, S., Elen, J., & van Oostendorp, H. (2015). When a game supports prevocational math education but integrated reflection does not. Journal of Computer Assisted Learning, 31(5), 462-480.
https://doi.org/http://dx.doi.org/10.1016/j.compedu.2015.08.010
Tokan, M. K., & Imakulata, M. M. (2019). The effect of motivation and learning behaviour on student achievement. South African Journal of Education, 39(1), 1-8.
https://doi.org/https://doi.org/10.15700/saje.v39n1a1510
Triboni, E., & Weber, G. (2018). MOL: Developing a European-style board game to teach organic chemistry. Journal of Chemical Education, 95(5), 791-803.
https://doi.org/10.1021/acs.jchemed.7b00408
Tripiana-Barbosa, A., & de Souza, S. R. (2015). A board game for the teaching, reading, and writing to intellectually disabled people. Behavior Analysis: Research and Practice, 15(1), 90-106. https://doi.org/http://dx.doi.org/10.1037/h0101073
UNESCO. (2016, March 3 ). 2001 Revised Recommendation concerning Technical and Vocational Education. from http://portal.unesco.org/en/ev.php-URL_ID=13145&URL_DO=DO_TOPIC&URL_SECTION=201.html
Uy, D. J. (2019). Career SUPERDRIVE: A Qualitative Evaluation of Serious Play in the Career Exploration Process. Asia Pacific Career Development Journal, 2(2), 63–81.
Van Eck, R. (2006). Digital game-based learning: It's not just the digital natives who are restless. EDUCAUSE review, 41(2), 16-30.
Wikipedia. (2021). Tabletop game. from https://en.wikipedia.org/wiki/Tabletop_game
Yuwhono, A. C., & Hastuti, W. D. (2020). Game Card Quartets for Increasing Numeracy Ability of Adding 1-10 for Intellectual Disability Students. Jurnal Penelitian dan Pengembangan Pendidikan Luar Biasa, 6(1), 41-43.
https://doi.org/http://dx.doi.org/10.17977/um029v6i12019p41-43