Theory of Planned Behavior and the Influence of Communication Self-Efficacy on Intention to Pursue a Software Development Career

In modern software development, communication is one of the key success factors in software project development and team performance. However, software engineering (SE) students and educators may not have fully considered its significance in comparison to technical skills. The objective of the study was to determine the influence of communication self-efficacy and factors related to the theory of planned behavior (TPB) on the intention to pursue a career in software development. A survey was used to collect data from senior SE students at six universities in Thailand. The partial least squares – structural equation model (PLS-SEM) was used to analyze the data. The findings indicate that attitudes toward software development careers and communication self-efficacy for software development had a positive influence on the students’ intention to pursue a career in software development. This study is the first attempt to investigate how communication self-efficacy in software development affects intention to work in a software development career. Educators can use the findings to improve curricula to foster students’ communication self-efficacy and encourage them to pursue a software development career

Fostering Cooperative Learning with Scrum in a Semi-Capstone Systems Analysis and Design Course

Agile methods such as Scrum that emphasize technical, communication, and teamwork skills have been practiced by IT professionals to effectively deliver software products of good quality. The same methods combined with pedagogies of engagement can potentially be used in the setting of higher education to promote effective group learning in software development classrooms. Therefore, the purpose of this study is to integrate both Scrum and cooperative learning guidelines into a systems analysis and design classroom to promote the skills of teamwork, communication, and problem-solving while learning systems analysis and design methods. This integration was implemented in a sophomore, semi-capstone design course where students were engaged in collaborative classroom activities. Two different approaches – overlapped approach and delayed approach – were used in two different semesters for this implementation. Based on the analysis of student performance in the course, student reflections on their team performance, and student overall perceptions of the teaching approach, this study suggests that the integration of cooperative learning and Scrum serves as guidance for students to effectively analyze and design software solutions, as well as to reflect on their team performance and learning process. In addition, a delayed approach for Scrum implementation appears to effectively support student learning by providing better and earlier feedback