Electronic learning- virtual
L.S. Hamidian Divkolaei; S. M. Bagheri
Abstract
Background and Objectives: Today, turning to virtual education in schools and universities along with face-to-face training is inevitable. Virtual education has received much attention in recent years in Iran. This becomes even more important and valuable when it comes to teaching practical courses. ...
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Background and Objectives: Today, turning to virtual education in schools and universities along with face-to-face training is inevitable. Virtual education has received much attention in recent years in Iran. This becomes even more important and valuable when it comes to teaching practical courses. Architecture, as a field in which many of its courses are considered practical, would encounter serious challenges in students' learning if the important points in virtual education are not considered. One of the issues that may be overlooked in the field of virtual education is the discussion of learning differences among students. Learning style is a characteristic that determines how students learn and how they prefer to learn, and the teacher also learns to identify and guide the needs of individual students. Failure to pay attention to the differences in students’ learning styles, especially in virtual education, where the teacher does not have much visual and face-to-face communication with students, will sometimes lead to a complete lack of transfer of concepts in education. Traditional classroom-based learning, on the other hand, typically leads to a consistent learning process that does not fit the learners’ different needs, while in targeted web-based learning programs, learning can be implemented properly. The cognition of the differences in learning process among students is one of the important factors in developing and improving education. Examining the different styles of students in learning, can be helpful to improve the quality of education and transfer better learning to students, especially in virtual education.Methods: In this article, we try to know the four divisions of students' learning style, and their performance in different courses of architecture. The present study was conducted on 48 architectural students in their first semester (who has started their studies with virtual education) from different degrees) bachelor and associate degree) in architecture and interior design. Architecture students face different attitudes in various academic years. Because of the impact that cognitive changes have on students' learning styles, it was decided to consider the statistical population among the freshmen in order to reduce the impact of changes in students’ learning styles, so that students' initial learning style is identified. SPSS 23 software was used to analyze the data.Findings: The results showed that the majority of architecture students in the bachelor and associate degree, from the selected community, used the adaptive learning style and the students of the interior design group had convergent learning styles. Studies also showed no significant relationship between degree and students' field of study with their performance. Also, the results of studies demonstrated that students with divergent learning style in the theoretical courses of bachelor’s degree in architecture field, had the best performance (with an average of 20), whereas students with convergent learning style in theoretical-practical courses of bachelor’s degree in architecture earned the lowest performance (with an average of 8.25). According to the results of the studies, it seemed that only in the bachelor’s degree students and in the theoretical-practical course (architectural design 2), there was a significant relationship (sig <0.05).Conclusion: It is suggested that educators be aware of different learning styles at the beginning of each training course in order to consider a specific category for each group of people with a common learning style. By identifying their learning style, learners can use the flexible structure that e-learning allows to achieve the desired learning outcome.
Modern Educational Approaches
A. Sharghi; H. Azemati; S. Asadi; A. Khorshidian
Abstract
Background and Objectives: Disaster occurrences lead to a wide range of built environment destruction and physical damages and followed by a widespread need for reconstruction. However, international experiences and failures of architects in providing reconstruction and accommodation projects reveal ...
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Background and Objectives: Disaster occurrences lead to a wide range of built environment destruction and physical damages and followed by a widespread need for reconstruction. However, international experiences and failures of architects in providing reconstruction and accommodation projects reveal the presence of gaps in academic learning views and special planning and designing needs in critical circumstances. Evidence suggests that the successful participation of architects and built environments professionals in reconstruction requires knowledge and expertise in creating a resilient environment and community in post-disaster complex situations. According to the issue, the present paper tries to evaluate and examine the efficacy of reconstruction education technology for architecture students in reconstruction after disaster department at Shahid Beheshti University in two phases. First; field trip to affected places, case study and group discussion after primary learning the basics, theories and perspectives of the reconstruction. Second; deepening and expanding the learned lessons using narrative technique in teaching and close participation in class discussions. MethodS: The nature of the research is quasi-experimental, without control group and in the time period of a semester. Initially, with the aim of identifying the nature of the education technology process, a deep interview with professors of the reconstruction atelier were done. The main codes of this process were extracted by content analysis. Then, with the presence of the researcher in the atelier, through participatory observation, shared points and technologies of these ateliers were extracted and based on the professors’ viewpoint, they were corrected and confirmed. In the next step, the extracted process was measured by the longitudinal and pre-test and post-test research design, using a standard Student Evaluation of Educational Quality (SEEQ) questionnaire with 9 criteria. The research participants are freshmen students of post-disaster reconstruction postgraduate education, due to the lack of a specific mentality of the education process. Completing the questionnaires was performed at the beginning of the semester and then simultaneously with semester exams. In order to measure the findings validity, the research was carried out again in the academic semester of 2019-2020 and was performed by the 15-person group of new students. According to the findings with the lowest level of error, research findings were validated.Findings: Based on the paired t-test of pre-test and post-test data, reconstruction education technology in the preparatory atelier, with 95% confidence level significantly increases the level of criteria such as learning lessons, enthusiasm toward the lesson and the curriculum of reconstruction, interactive learning, and positive evaluation of the instructor’s teaching. Also, in studying the two-way relationship of research criteria through Pearson correlation test, it has been determined that there are positive and meaningful relationships between the dual criteria of student's assessment of learning and the enthusiasm to course and instructor’s teaching evaluation and the desire to group interactionConclusion: According to efficacy of the technology in teaching practical and theoretical issues of post-disaster reconstruction to architecture students, it is suggested that it be considered in architectural design studios in order to enhan