A Preliminary Study of Integrating Flipped Classroom strategy for Classical Chinese Learning

[[abstract]]This is a multiphase study which aims to investigate how to provide learners with an method to acquire classical Chinese through integrating mobile technology with the flipped classroom approach. Currently, in the first phase of study, the researcher adopts informant design through questionnaire survey to understand students' and instructors' perceptions of using mobile learning devices for classical Chinese learning, and afterwards the researcher constructs the system based on the pilot results. The pilot questionnaire results, structure of the developed mobile learning system and the practical application of the developed system for classical Chinese teaching and learning are described in the paper.[[notice]]補正完

Towards a Service-Oriented Architecture Framework for Educational Serious Games

Producing educational serious games can be costly and time-consuming. The Service-Oriented Architecture (SOA) approach of software development can offer a solution to reduce costs and foment serious games development. In this work, we apply a model called Activity Theory-based Model of Serious Games (ATMSG) for identifying existing relevant components that can be reused for different educational serious games. We apply the derived structure to classify the elements of an existing game and to identify how it can be refactored and expanded following the SOA paradigm

An influence model of the experience of learning programming

Learning to program is difficult for many students all over the world with programming courses often experiencing high failure and attrition rates. The teaching of programming is still considered a major challenge by educators. At the same time, programming is becoming a key skill required not only of IT graduates but also of students in other disciplines and is becoming more important to a wider range of people. Today’s university students also practice their learning in an extended learning environment that extends well beyond the classroom. There has been considerable research into the teaching of programming in the computing education field, with many studies focussing on content and delivery. More recently, researchers have recognised the need for a greater understanding of how students experience learning to program, from the student’s perspective. This study contributes to this growing body of knowledge by exploring, in depth, the wide range of influences on the student learning experience of programming. A qualitative study was conducted that interviewed 31 Information Systems students about their experiences in learning programming. The interview transcripts were analysed using a Grounded Theory methodology. A new theory of the Influences on the Student Learning Experience of Programming was developed from the analysis, which is more holistic and comprehensive than previous theories. The learning experience of programming involves a complex interaction of a wide range of influences. A major influence is the student’s Perceived Personal Relevance towards programming. Students who perceive that programming is relevant to their future career goals are far more motivated to learn it. Perceived Personal Relevance, together with Learning Trait and Skill Level describe the Learner Nature of the student, which influences their Learning Behaviours. The influences within Learning Behaviours include Core Learning Perspectives (Ownership of learning, Learning Task Intent and Problem solving Behaviours), Patterns of Collaboration and Patterns of Information Use. Patterns of Collaboration describe how students interact with and use their Personal Networks, and include four levels of dependency: One Way Dependent, Two Way Co-Dependent, Collaborative Independent and Solitary Independent. Patterns of Information Use describe the different ways students interact with and use their information sources. The theory includes Programming Learner Profiles, which encapsulate the relationships and influences between Learner Nature and Learning Behaviours. Each profile describes, in essence, the nature and behaviour of different types of students. Seven distinct Programming Learner Profiles were identified in the study: Reluctant Beginner, Willing Beginner, Keen Beginner, Budding Manager, Budding Practitioner, Budding Developer and Advanced Developer. This new theory gives educators a greater insight into what students are thinking and doing when learning to program and potential strategies that can improve learning outcomes