Showing total 4 results

1. Browsing to learn: How computer and software engineering students use online platforms in learning activities.

Author

Araos, Andrés, Damşa, Crina, and Gašević, Dragan

Subjects

COLLEGE students, COMPUTER software, ONLINE education, SCHOOL environment, RESEARCH methodology, COMPUTER assisted instruction, INTERVIEWING, ENGINEERING, LEARNING strategies, SOFTWARE architecture, SELF-efficacy, DESCRIPTIVE statistics, THEMATIC analysis, LATENT structure analysis

Abstract

Background: The surge of online platforms has generated interest in how specialized platforms support formal and informal learning in various disciplinary domains. Knowledge is still limited regarding how undergraduate students navigate and use platforms to learn. Objectives: This study explores computer and software engineering students' learning practices, wherein online platforms are used as resources for both curricular learning activities and students' interest‐driven learning. Methods: The learning practices of 73 students were examined using a mixed‐methods design and a conceptualization of practices accounting for the context and purpose of their enactment. The dataset includes students' self‐reports on domain‐specific learning activities, three‐month‐long web‐browsing history of multiple platforms and stimulated‐recall interviews. The data were analysed through latent class and thematic analyses. Results and Conclusion: Five distinct patterns were found in the use of online platforms. These patterns show that different types of platforms were used purposely and in combination during curricular and interest‐driven activities aimed at learning software development. Moreover, students' purposes were driven by both the need to progress in their learning activities and the development of their interest in software development. The findings highlight the complexity of students' learning with online platforms, which develop quite extensively beyond curricular boundaries. Implications: The findings stress the need to recognize that undergraduate students' learning practices involve multiple online platforms and activities beyond the formal curriculum and that these play a key role in developing students' interests in learning software development. Moreover, our findings indicate the importance of taking into account the way students' learning practices unfold within platforms and how these relate to domain‐specific practices. Lay Description: What is already known about this topic?: Online platforms are mostly used by teaching staff in undergraduate education to support student learning during formal curricular tasks.Research knowledge is limited mostly to specific features of social networking platforms, such as Facebook Groups or instant messaging technologies.Students informally use interest‐driven activities and both social and domain‐specific platforms to support their learning.Research on students' interest in using massive open online courses suggested that students' learning is motivated by academic success, prospective economic opportunities, and personal interests. What this paper adds?: Students combine various types of online platforms purposely (e.g., search engines or Q&A sites), many of which are domain‐specific (e.g., Stack Overflow).Students use online platforms informally during work on curricular tasks to, for example, collaborate, solve problems, and understand concepts or methods.Domain‐specific (e.g., software engineering) platforms are used during other study‐related leisure and entrepreneurial activities.Online platforms play a key role in how students develop their interests in learning. Through them, students connect not only with other students but also with professionals, companies, and information about them. Implications of study findings for practitioners: Curriculum developers and faculty should consider preparing students to use disparate types of online platforms beyond what is included in the curriculum.Curriculum developers should also consider other activities beyond the classroom that are study‐related and meaningful for students and their learning. [ABSTRACT FROM AUTHOR]

Published

2023

2. Digital skills critical for education: Video analysis of students' technology use in Norwegian secondary English classrooms.

Author

Kure, Astrid Elisabeth, Brevik, Lisbeth M., and Blikstad‐Balas, Marte

Subjects

SCHOOL environment, HIGH schools, COMPUTER assisted instruction, DIGITAL technology, QUANTITATIVE research, QUALITATIVE research, ENGLISH as a foreign language, DESCRIPTIVE statistics, TEACHERS, INFORMATION storage & retrieval systems, COMPUTER literacy, VIDEO recording, HIGH school students, EDUCATION

Abstract

Background: Globally, digital skills are a crucial aspect of education that schools should develop systematically. Research on digital skills tends to be measured using self‐reports, performance tests or interventions. There is less knowledge about student and teacher uptake of technology in school, making it important to investigate the actual use of technology and digital skills in authentic classroom settings. Objectives: This study contributes unique baseline data concerning students' use of technology and digital skills across mandatory English courses in real classroom settings in secondary schools in Norway over time. Methods: The study adapted a national framework for digital skills into an observation protocol. With it, this study analysed videos from 60 naturally occurring English lessons in 13 English classes at seven lower secondary schools over two school years (grades 9 and 10), following 186 students (aged 13–15) and 10 teachers. Results and Conclusions: Students used digital skills critical for education in half of the video‐recorded English lessons, with more digital skill use at some schools over time. The main finding across classrooms and school years regards students' use of basic, not advanced, digital skills. Takeaways: Although teachers provide opportunities for students to use digital skills in school, more advanced skills are needed. This work calls for continued use of video recordings to provide systematic comparisons of potential shifts in students' digital skills in real English secondary classroom settings over time. Lay Description: What is currently known: Digital skills is a crucial aspect of education globallyStudent and teacher uptake of technology varies extensivelyMost studies on the use of digital technology concern self‐reports and interventionsFew studies exist concerning the actual use of digital skills in the classroom What this paper adds: Video recordings from seven English classrooms across two school years are analysed.A framework for digital skills is adopted and used as observation protocolAttention is given to the difference between basic and advanced digital skillsHow technology is actually used matters more than how much technology is available Implications of study findings for practitioners: Teachers should offer opportunities for students' use of digital skills in the classroomSubject‐specific use of digital skills should be prioritizedThere is a need for more emphasis on reflection and digital judgementWe need to encourage the use of advanced digital skills and not only basic skills [ABSTRACT FROM AUTHOR]

Published

2023

3. Satisfaction is insufficient: Insights from a randomized, controlled trial of a marketing simulation game.

Author

Skjelbred, Siv‐Elisabeth and Daus, Stephan

Subjects

ACADEMIC achievement evaluation, HIGH schools, CONFIDENCE intervals, MOTIVATION (Psychology), DIGITAL technology, RESEARCH methodology, SATISFACTION, PSYCHOLOGY of teachers, COLLEGE teacher attitudes, INTERVIEWING, MARKETING, LEARNING strategies, RANDOMIZED controlled trials, STUDENTS, PSYCHOLOGY of high school students, FACTOR analysis, CHI-squared test, DESCRIPTIVE statistics, RESEARCH funding, GAMIFICATION, DATA analysis software, STUDENT attitudes, EDUCATIONAL outcomes

Abstract

Background: The development and promotion of educational games are still outpacing knowledge of these games' effects, raising calls for evidence of benefits and challenges. Studies suggest that students and teachers like games, but the payoff of the investment in terms of increased motivation and achievement remains unclear. Objectives: This study investigates the pure effect of a marketing simulation game on motivation, perceived learning and achievement, above and beyond regular student‐active instruction. Methods: We applied a randomized, controlled experiment in a marketing course in upper‐secondary schools (Nclasses = 22; Nstudents = 433) comparing a collaborative–competitive marketing simulation game with regular, case‐based, student‐active instruction on three groups of outcome measures: motivation, perceived ability, and achievement. Additionally, students and teachers provided quantitative and qualitative feedback on game experiences. Results and Conclusions: We showcase the importance of a robust study design with valid compound instruments. Moreover, investigations of the game implementation and experiences reveal insights about intervention timing, differential negative consequences by gender and need for reflection opportunities. We find no clear evidence of positive or negative effects of the game, despite students' and teachers' satisfaction. Implications: Beyond the effect evaluation, we offer recommendations to researchers and developers of educational games about scaffolding, timing and teacher competence building. Lay Description: What is already known about this topic: Some curricula contains many terms and complex knowledge links.Simulation games are a popular remedy for these challenges.Prior studies have relied on users' satisfaction with the game and unrealistic comparisons. What this paper adds: This experiment compares game usage and regular student‐active instruction.They use various measures of satisfaction, motivation, perceived learning and achievement.The game has no effect on main outcomes. Implications for practice and/or policy: Game implementation requires digitally acquainted and trained teachers.Uncritical game design and use may motivate competitive boys over collaborative girls. [ABSTRACT FROM AUTHOR]

Published

2022

4. Exploring students' cognitive and affective states during problem solving through multimodal data: Lessons learned from a programming activity.

Author

Mangaroska, Katerina, Sharma, Kshitij, Gašević, Dragan, and Giannakos, Michail

Subjects

BRAIN physiology, THOUGHT & thinking, PSYCHOLOGY of college students, PROBLEM solving, AFFECT (Psychology), ELECTROENCEPHALOGRAPHY, COGNITION, LEARNING strategies, T-test (Statistics), UNIVERSITIES & colleges, COMMUNICATION, COMPUTER systems, TIME series analysis, DESCRIPTIVE statistics, STATISTICAL correlation, WRITTEN communication, READING

Abstract

Background: Problem‐solving is a multidimensional and dynamic process that requires and interlinks cognitive, metacognitive, and affective dimensions of learning. However, current approaches practiced in computing education research (CER) are not sufficient to capture information beyond the basic programming process data (i.e., IDE‐log data). Therefore, how cognition and affect intertwine and unfold over time in programming problem‐solving activities are rarely investigated. Objectives: In this study, we examined how the theory‐informed measures from multimodal data that we have selected as proxies for cognitive and affective dimensions of learning, are associated with student performance, and in comparison, to prior‐knowledge. Methods: A high‐frequency temporal data was collected with a camera, an electroencephalogram, and an eye‐tracker from 40 computer science students (bachelor and master studies) in the context of a code‐debugging activity. To study the cognitive processes associated with learning we focused on cognitive load theory (CLT) and the human information processing model. In addition, we complemented CLT with the model of affective dynamics in learning to avoid the machine reductionism perspective. Results: Our findings demonstrated that attention, convergent thinking, and frustration were positively correlated with students' successful code‐debugging (i.e., performance), and frequently manifested by high performing participants. Cognitive load, memory load, and boredom were negatively correlated with students' performance, and typically manifested by low performing participants. Implications: Extending the context of analysis in reference to student cognitive processes and affective states, affords educators not just to identify lower performers, but also to understand the potential reasons behind their performance, making our method an important contribution in the confluence of CER and the learning technology communities. In addition, the insights extracted from our analyses allow us to discuss potential avenues for improving learning design and the design of interactive learning systems to support the development of students' problem‐solving skills. Lay Description: What is currently known about the subject matter: ● Problem‐solving interlinks cognitive, affective and metacognitive dimensions of learning. ● In digital settings instructors struggle to distinguish cognitive‐affective states of students. ● Learning technologies require interventions based on cognitive‐affective states of students. What the paper adds: ● When and what cognitive‐affective states are triggered during solving a programming problem. ● What and how measures as proxies for cognitive‐affective states are associated with performance. ● Emphasizes the benefits of augmenting IDE‐log data with sensor data in the context of learning design. Implications of study findings for practitioners: ● Methodology guidelines to identify and model variability in humans' natural behaviours. ● Importance of content and instructions personalization for student engagement and learning. ● Identification of multimodal data proxies for flexible and adaptive multimodal interfaces. [ABSTRACT FROM AUTHOR]

Published

2022