The Efficacy of the MOOC+SPOC Synchronous Learning Model in Vocational Education for Process Control Systems

Incorporating the Industrial Revolution into vocational education, particularly in enhancing curriculum and learning, encounters numerous obstacles. Utilizing technology in interactive learning is anticipated to actively involve learners and enhance their abilities in critical thinking, creativity, innovation, and problem-solving. This study emphasizes the limitations of traditional learning approaches in Process Control Systems and presents a novel framework of MOOC+SPOC Synchronous using a Research and Development (R&D) methodology. The Process Control System course encounters impediments that negatively impact the graduation rate, which is suboptimal. The merging of MOOC (Massive Open Online Course) and SPOC (Small Private Open Course) models into a synchronous MOOC+SPOC learning model seeks to enhance learning outcomes through the utilization of a cloud computing-based Virtual Remote Laboratory (VRLab). The outcome is a model that has been rigorously evaluated and proven effective through empirical research. The research data demonstrated this model's statistically significant positive effect on enhancing student learning outcomes. The Pre-Test and Post-Test results revealed that the experimental group experienced a notable improvement in learning outcomes, with an increase ranging from 10% to 46%. In comparison, the control group also exhibited increased learning outcomes, ranging from 5% to 39%. The statistical analysis reveals a consistent and significant growth in the Experimental group, indicating that students exhibit a favorable level of motivation throughout the learning process, as indicated by the average significance value exceeding 0.5. Based on the test findings acquired from this study, it can be concluded that the Synchronous MOOC+SPOC model is a viable alternative for addressing future difficulties in vocational education. This model is effective and has been proven to work.