A. Tapp Jaksa1, J. Margerum-Leys2
This paper investigates the intersection of affective teaching strategies and cognitive achievement within AI-driven educational technologies. Building on foundational dissertations by Ireland (1999) and Proctor (2002), along with contemporary peer-reviewed literature, the authors examine how affective engagement in AI-enhanced learning environments can improve educational outcomes. The implications for future technology-based education systems are discussed, emphasizing the necessity for integrating affective computing to enhance student cognition and achievement. The integration of emotional and cognitive aspects in learning is well-documented, with significant contributions from Krathwohl et al. (1964) and Kaplan (1986) on the role of emotions in education. Ireland (1999) and Proctor (2002) further extended these insights to computer-assisted instruction, highlighting the importance of affective strategies in cognitive achievement. This research also incorporates insights from Lenard Kaplan's (1986) work on questioning strategies, emphasizing the broader applicability of affective teaching in fostering deeper understanding and emotional engagement.
Recent advancements in AI have revolutionized educational technologies, providing tools that personalize learning experiences and adapt to individual student needs (Zawacki-Richter et al., 2019). AI-driven platforms can analyze student data to offer tailored educational content, enhancing both engagement and learning outcomes (Holmes et al., 2019). Woolf (2020) discusses the potential of AI to not only personalize learning but also incorporate affective computing, which can detect and respond to students' emotional states, thereby creating a more supportive and effective learning environment. Findings suggest that integrating affective strategies significantly enhances cognitive outcomes in AI-driven educational settings. Ireland's (1999) and Proctor's (2002) findings are supported by recent studies on affective computing, which indicate improved student engagement and learning outcomes when emotional support is integrated into the learning environment (Baker et al., 2021; Pane et al., 2017). Allen and Friedman (2010) provide a comprehensive taxonomy for affective learning, which is adapted to evaluate affective outcomes in AI settings. Kaplan's (1986) strategies of reflective questioning further enhance emotional and cognitive engagement.
Future implications of this research point towards AI's potential to revolutionize educational practices by integrating emotional intelligence into learning environments. However, this integration raises ethical concerns, including issues of privacy, data security, and potential biases in AI algorithms (Holmes et al., 2021). Addressing these challenges is crucial for the responsible development and deployment of AI in education. Integrating affective components into AI-driven educational technologies holds significant promise for enhancing cognitive learning outcomes. As AI continues to evolve, understanding the interplay between emotions and cognition will be crucial for developing effective educational tools that meet the diverse needs of learners. Future research should focus on refining affective computing technologies and addressing the ethical challenges associated with their use.
Keywords: Affective pedagogical strategies, Cognitive performance, AI-enhanced educational technologies, Affective computing, Personalized learning, Educational outcomes.