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Maija Hirvonen 《Journal of Research in Special Educational Needs》2011,11(2):141-148
This paper describes the development of education of students with special needs in vocational education. The paper is based on a case study research conducted in 2001–2005 in Jyväskylä Municipal Federation of Vocational Education in Central Finland. The study consisted of two parts: firstly of the historical analysis of special educational stages, and secondly of the contemporary analysis of special educational challenges in the research target. The Developmental Work Research model was used in attempting to get a systemic view of different factors affecting a special educational entity. The study showed the importance of a holistic view. The special educational system in the research target seems to be strongly linked to the general structure of vocational education, its goals, learning principles, legislation and personnel structure. The development of vocational special education in Jyväskylä followed the strongly regulated national guidelines set for vocational special education until the end of the 1990s. At that time new legislation, structural reforms and the change from norm‐based towards an autonomous information‐based self‐government opened doors for new special educational implementation. From the perspective of teachers specialized in special educational needs (SEN‐teachers) a clear change can be seen from an autonomous, defined work towards a loss of an expertise position. However, the strong linkage between general and special education in vocational education offers possibilities for inclusive education. In order to face the new challenges, the work of SEN‐teachers has to be redefined to clearly broaden the perspective from teaching towards new expertise in each educational establishment. 相似文献
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There is paucity of original research that explains phenomena related to content organization and site design of educational Web sites. Educational Web sites are often used to provide Web‐based instruction, which itself is a relatively recent phenomenon for business schools, and additional research is needed in this area. Educational Web sites are designed with a different set of criteria as compared with other sites, such as those having an e‐commerce or marketing focus. More research is needed to build a theoretical foundation for feature requirements in educational Web sites. As in any new approach to teaching and learning, critical issues need to be examined before Web‐based instruction is fully integrated into teaching processes. When developing educational Web sites, features that support pedagogy should be given primary consideration. It is therefore important to identify key elements that will have maximum impact on learning. Using Q‐sort analysis (a type of Factor Analysis), this study investigated feature requirements of educational Web sites as perceived by business students. Based on the analysis of user requirements in relation to several variables that were identified from a review of literature, group characteristics emerged from students' responses. Similarities and differences between groups were investigated, and implications of these results for development of educational Web sites are presented in this study. 相似文献
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Chia-Ju Liu Wen-Wei Chiang 《International Journal of Science and Mathematics Education》2014,12(3):629-646
This report provides an overview of neuroscience research that is applicable for science educators. It first offers a brief analysis of empirical studies in educational neuroscience literature, followed by six science concept learning constructs based on the whole brain theory: gaining an understanding of brain function; pattern recognition and consciousness; mind maps, mnemonics and other learning devices; concrete multisensory experience; higher-order creative reasoning via a multimedia-infused environment and positive emotion in educational settings. It is vital to the future of results-based education that discoveries regarding the cognitive learning process are taken into consideration when designing instruction. This research offers science educators neuroscience-backed information as a foundation to develop results-oriented curricula and teaching methods. Future research could further extend an empirically driven education system. 相似文献
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Sylke Vandercruysse Mieke Vandewaetere Frederik Cornillie Geraldine Clarebout 《Educational technology research and development : ETR & D》2013,61(6):927-950
Although educational games have become quite popular in recent research, only a limited number of studies have focused on the effectiveness of these games. While numerous claims have been made about the effectiveness of games, the studies that examine educational effectiveness often contain flaws resulting in unclear conclusions. One possible solution for these shortcomings is to focus on separate game elements rather than on games as a whole. A second solution is to take into account students’ perceptions of instruction as they are likely to affect students’ interpretations and learning outcomes. This study investigated whether the addition of the gaming element ‘competition’ to a computer-based language learning environment is related to students’ motivation, perceptions and learning outcomes. Additionally, this study probed into the effect of instruction, i.e., the instruction of a gaming or learning environment, on students’ perceptions of the environment, their motivation and learning outcomes. 83 students participated in this study, all working in a game-based learning environment for learning business English conversation skills. The results demonstrate that competition is not significantly related to students’ learning gains and only partly related to students’ motivation. Moreover, the majority of students perceived the environment as a learning environment, even when they were instructed to be playing in a gaming environment. To conclude this paper, the practical and theoretical implications for the fields of instructional design and educational games research are discussed. 相似文献
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S. M. Gómez Puente M. van Eijck W. Jochems 《European Journal of Engineering Education》2011,36(2):137-149
Design-based learning is a teaching approach akin to problem-based learning but one to which the design of artefacts, systems and solutions in project-based settings is central. Although design-based learning has been employed in the practice of higher engineering education, it has hardly been theorised at this educational level. The aim of this study is to characterise design-based learning from existing empirical research literature on engineering education. Drawing on a perspective that accounts for domain-specific, idiosyncratic and learner-centred aspects of design problems in the context of engineering education, 50 empirical studies on project-based and problem-based engineering education, to which the design of artefacts is central, were reviewed. Based on the findings, design-based learning is characterised with regard to domain-specificity, learner expertise and task authenticity. The implications of this study for the practice of engineering education are discussed. 相似文献
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Patricia L. Hardré 《Innovative Higher Education》2005,30(3):163-175
Institutions need effective and efficient methods of professional development for preparing graduate students to teach. These
skills are important both for their immediate roles as teaching assistants (TAs) and for their eventual roles in the professoriate.
An iterative process model from instructional design can function as a cognitive organizational framework for the development
of teaching expertise. It facilitates expertise by supporting TAs in connecting new and existing knowledge about teaching
and learning in meaningful ways that reflect the cognitive processes of expert teachers. Thus, it can support both the current
and future development of teaching expertise and facilitate the application of knowledge in the form of teaching strategies.
Patricia L. Hardré earned her Ph.D. in Education at the University of Iowa. She specializes in Instructional Design and Technology
with emphases on cognition and instruction, human motivation, and educational assessment. She is currently an Assistant Professor
in the Department of Educational Psychology at the University of Oklahoma. Her current research pursuits include K-12 teacher
education, TA training and development, high school students' motivation to learn and persist in school, and the effects of
computer-based administration of research instruments. 相似文献
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Demystifying the Millennial student: a reassessment in measures of character and engagement in professional education 总被引:1,自引:0,他引:1
The characteristic profile of Millennial Generation students, driving many educational reforms, can be challenged by research in a number of fields including cognition, learning style, neurology, and psychology. This evidence suggests that the current aggregate view of the Millennial student may be less than accurate. Statistics show that Millennial students are considerably diverse in backgrounds, personalities, and learning styles. Data are presented regarding technological predilection, multitasking, reading, critical thinking, professional behaviors, and learning styles, which indicate that students in the Millennial Generation may not be as homogenous in fundamental learning strategies and attitudes as is regularly proposed. Although their common character traits have implications for instruction, no available evidence demonstrates that these traits impact their fundamental process of learning. Many curricular strategies have been implemented to address alleged changes in the manner by which Millennial students learn. None has clearly shown superior outcomes in academic accomplishments or developing expertise for graduating students and concerns persist related to the successful engagement of Millennial students in the process of learning. Four factors for consideration in general curricular design are proposed to address student engagement and optimal knowledge acquisition for 21st century learners. 相似文献
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Francisco Cano María Cardelle-Elawar 《European Journal of Psychology of Education - EJPE》2004,19(2):167-187
Students’ conceptions and beliefs about learning are constructs that have been proposed in two independent lines of research, phenomenographic and metacognitive, and analysed using qualitative and quantitative methodologies, respectively. The present research examines and integrates in a single study both constructs and methodologies. Data were collected through an open-ended task (Tynjäla, 1997) and an epistemological questionnaire (Schommer, 1990), administered to a sample of 1,200 secondary students. Three major statistically significant findings emerged. First, students’ conceptions of learning and epistemological beliefs changed from simplistic to more complex as they progressed through school. Second, the two constructs were linked to each other. The most advanced category on the ‘dimension of depth’ of learning conceptions corresponded to the highest scores at the complex pole of the belief system. Third, learning conceptions as well as epistemological beliefs were predictors of academic performance. The more capable students were of constructing meaning, the better their academic achievement appeared to be. Theoretical and educational implications are discussed with regard to further research, classroom instruction, and the value of combining both research methodologies in order to deepen our understanding of students’ learning experience. 相似文献
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Gi-Zen Liu Wan-Yu Chiu Chih-Chung Lin Neil E. Barrett 《Journal of Science Education and Technology》2014,23(6):827-839
To date, the concept of English for Specific Purposes has brought about a great impact on English language learning across various disciplines, including those in science education. Hence, this review paper aimed to address current English language learning in the science disciplines through the practice of computer-assisted language learning to identify the use of learning technologies in science-based literacy. In the literature review, the researchers found that science-based literacy instruction shares many pedagogical aims with English language teaching in terms of reading, writing, listening and speaking, allowing it to be classified as English for Scientific Purposes (EScP). To answer the research questions, the researchers conducted the survey by extracting related articles and teaching examples from the Web of Science. In the search procedure, the researchers used the keywords science OR scientific AND technolog* OR comput* in ten selected journals of social science citation index. Only articles which are specified as journal articles rather than other document types were included. After compiling the corpora, the researchers compared the trends, methodologies and results of EScP instruction in science education. The implications of this study include the opportunities, advantages and challenges for EScP instruction in science education to further develop better educational approaches, adopt new technologies, as well as offer some directions for researchers to conduct future studies. 相似文献
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José Antonio González-Calero Ramón Cózar Rafael Villena José Miguel Merino 《British journal of educational technology : journal of the Council for Educational Technology》2019,50(6):3198-3213
The research literature on the topic of “spatial ability” reveals that it has a major influence on achievement in the fields of science, technology, engineering and mathematics. Additionally, previous studies indicate the existence of a gender gap in spatial ability in favour of males. Mental rotation, one subskill of spatial ability, is an area in which gender differences are greater. At the same time, educational robotics is seen as one of the more promising technologies in educational contexts for the future. We conducted a quasi-experimental study with 142 seven- and eight-year-old students aimed at analysing whether robotics-based instruction may produce greater learning gains on mental rotation abilities compared to traditional instruction. The intervention was developed in the context of map-reading tasks, which are part of the curricular content in Mathematics and Social Sciences at this age. The results showed that for males, the robotics-based instruction promoted a significantly greater improvement in students’ mental rotation abilities compared to the control group. By contrast, no significant differences were observed for females. Although this study provides empirical evidence of the potential of robotics-based instruction, future studies need to deeply analyse the existence of gender differences in the learning gains obtained through educational robotics. 相似文献
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ABSTRACTThis article provides the first review of the existing literature consolidating research into the use of virtual, augmented and mixed reality technologies within K–12 educational environments. The review explores the peer-reviewed scholarly studies conducted between 2006 and May 2017, which involved the use of virtual reality (VR), augmented reality (AR) or mixed reality (MR) technologies in the instruction of students in elementary, middle or high school. The literature revealed common themes including collaboration, communication, critical thinking, attitude, engagement, learning, motivation, performance or achievement, and technology (used or proposed). This literature review will contribute to the field by providing clarity on definitions for VR, AR and MR technologies in consideration of educational use, present an overview of the existing research on VR, AR and MR specific to K–12 educational environments and identify future research needs and directions. 相似文献
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The increasingly widespread use of social network sites to expand and deepen one’s social connections is a relatively new but potentially important phenomenon that has implications for teaching and learning and teacher education in the 21st century. This paper surveys the educational research literature to examine: How such technologies are perceived and used by K-12 learners and teachers with what impacts on pedagogy or students' learning. Selected studies were summarized and categorized according to the four types introduced by Roblyer (2005) as studies most needed to move the educational technology field forward. These include studies that establish the technology’s effectiveness at improving student learning; investigate implementation strategies; monitor social impact; and report on common uses to shape the direction of the field. We found the most prevalent type of study conducted related to our focal topic was research on common uses. The least common type of study conducted was research that established the technology’s effectiveness at improving student learning. Implications for the design of future research and teacher education initiatives are discussed. 相似文献
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There have been many practical obstacles for teachers to implement evidence-based educational technology, especially in STEM classrooms. By implementing learning principles related to Cognitive Load Theory, we developed an innovative Technology-Assisted Guided Learning (TAGL) approach and its web-based instructional tool, combining expertise from educational research and best teaching practices to enhance guided student-centered learning in chemistry. A total of 185 community college students were randomly assigned to learn stoichiometry through either TAGL or one of two active control interventions, traditional direct instruction and Khan Academy, a widely used web learning platform. We found that the TAGL group significantly outperformed both active control groups immediately after instruction, and furthermore, despite the fact that all groups received additional instruction in stoichiometry, the beneficial effects of TAGL compared to the control groups were maintained a month later. Notably, TAGL was able to eliminate the achievement gap between students with low prior knowledge and students with high prior knowledge. Furthermore, prior-knowledge activation was found to be especially beneficial for students with low prior knowledge. Our work contributes to existing research in learning theories and provides new insight toward the development of more effective and adaptive instructional designs. By translating research into practice, this study demonstrates the great potential of using innovative computer-based technology to improve student learning for all. 相似文献
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Paul Van der Zande Sanne F. Akkerman Mieke Brekelmans Arend Jan Waarlo Jan D. Vermunt 《International Journal of Science Education》2013,35(11):1741-1767
Contemporary genomics research will impact the daily practice of biology teachers who want to teach up-to-date genetics in secondary education. This article reports on a research project aimed at enhancing biology teachers’ expertise for teaching genetics situated in the context of genetic testing. The increasing body of scientific knowledge concerning genetic testing and the related consequences for decision-making indicate the societal relevance of an educational approach based on situated learning. What expertise do biology teachers need for teaching genetics in the personal health context of genetic testing? This article describes the required expertise by exploring the educational practice. Nine experienced teachers were interviewed about the pedagogical content, moral and interpersonal expertise areas concerning how to teach genetics in the personal health context of genetic testing, and the lessons of five of them were observed. The findings showed that the required teacher expertise encompasses specific pedagogical content expertise, interpersonal expertise and a preference for teacher roles and teaching approaches for the moral aspects of teaching in this context. A need for further development of teaching and learning activities for (reflection on) moral reasoning came to the fore. Suggestions regarding how to apply this expertise into context-based genetics education are discussed. 相似文献
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Behavioural strategies have made an important contribution to the development of programs for children with special needs. A review of theory and research suggests, however, that the behavioural task analysis, stimulus‐response approach is not an appropriate nor effective model for interactive teaching. Behavioural methods present problems because they emphasize the control of learning by the instructor, thus devaluing pupil initiation and its importance in an educational setting. Interactions between learners and teachers usually are more complex than those involved in behavioural instruction; i n particular, mainstream teaching strategies allow for some pupil control over learning. This paper compares approaches to teaching derived from behavioural technology with those used by effective teachers and examines some of the implications for educational programs for children with special learning needs, in particular those with severe multiple disabilities. 相似文献
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远程教育学的基本概念与研究对象之我见 总被引:13,自引:4,他引:13
千纪之交,在教育文献和大众传媒中出现频率很高的一个词汇是“远程教育”,这与同期以计算机多媒体和互联网为标志的电子信息通信技术的迅猛发展有关。我国远程教育事业发展很快,远程教育从业人员队伍不断壮大,实践发展呼吁远程教育理论指导和专业培训。对远程教育的基本概念和研究对象作出清晰合理的界定是开展指导和培训的基础。远程教育是一种教育方式与形式还是手段与方法?学校校园中对校内学生的网络教学以及西部中小学通过卫星接收站接收和应用东部优质教育资源是否为远程教育与远程教学?网络学习、在线学习、数字化学习和E—learning是否就是远程学习?该文综述了作者多年来对这一论题的研究成果。 相似文献
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Quincy Elvira Simon Beausaert Mien Segers Jeroen Imants Ben Dankbaar 《Learning Environments Research》2016,19(1):17-41
Development of professional expertise is the process of continually transforming the repertoire of knowledge, skills and attitudes necessary to solve domain-specific problems which begins in late secondary education and continues during higher education and throughout professional life. One educational goal is to train students to think more like experts and approach the mastery of a subject as an expert would. Helping students to develop professional expertise and evaluating whether classrooms are conducive to the development of expertise is difficult and time-consuming. At present, there is no instrument that measures all the core classroom factors that influence specifically the development of professional expertise. This paper describes the development and validation of an instrument that measures the extent to which educators create a Supportive Learning Environment for Expertise Development, the SLEED-Q. A sample of 586 secondary school students (14–18 years-old) was used for validation. Both exploratory and confirmatory factor analyses were carried out. Examination of the fit indices indicated that the model seemed to fit the data well, with the goodness-of-fit coefficients being in recommended ranges. The SLEED-Q, consisting of seven factors with 30 items, the SLEED-Q has potential as an instrument for examining how conducive learning environments are to development of professional expertise in secondary school settings. The implications of the results and potential paths for future research are considered. 相似文献