Introduction: The notion of autonomy in Self-Determination Theory is at the core of intrinsically motivated learning, and fulfilment of the need for autonomy is essential for thriving at school. Therefore teacher-provided autonomy support has grown into a key concern in educational research. In the present study into primary school music education, the notion of creative autonomy support is introduced. Research into autonomy support is typically focused on verbal interaction. However, from an enactive perspective, teachers’ gesturing, bodily movement, facial expression, and musical action form an integral part of the socially situated interaction in music lessons, inherently involving autonomy support. In the present study, a distinction is made between creative verbal autonomy support and creative musical and non-verbal autonomy support.Methods: Applying a process-based time-serial methodology, rooted in a Complex Dynamic Systems and Enactive perspective, the effects of an intervention with Video Feedback Coaching for teachers were investigated. Video data of 105 music lessons of 18 teachers (intervention and control condition) from six primary schools was gathered, to examine teachers’ creative autonomy support at both the individual and group level.Results: The findings show that teachers in the intervention condition, compared to the control group, achieved a meaningful increase in their ability to offer creative autonomy support verbally. Teachers also showed development for the non-verbal and musical aspects of offering creative autonomy support. However, particularly for offering higher-level creative autonomy support in the non-verbal and musical mode, significant results were found for less than half of the intervention teachers.Discussion: These results underline the importance of embracing and studying the bodily dimension as an integral part of teacher autonomy support, aimed at emergence of students’ musical creativity, in primary school music education and in teacher training. We explain how these results might be relevant for autonomy enhancing musical activities in vulnerable groups.
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In primary music education a key question is what teachers can do to stimulate students’ musical creativity. For the answer, delving into teacher-student interaction during the creative processes in the naturalistic setting of primary music lessons is required. Twenty-six music lessons from thirteen teachers and their classes of seven Dutch schools were recorded to explore the relation between teachers’ autonomy support and students’ divergent and convergent thought & action. Quantitative sequential analysis and thematic analysis were combined to examine this relation, using a framework offered by Complex Dynamic Systems theory and Enaction theory. In contrast to classical correla-tional analysis, sequential analysis focuses on the dynamics, and thus on the temporal relation in classroom interaction. The results show that mostly lower-level autonomy support was offered. Es-pecially in creative lessons, higher-level autonomy support is more likely to lead to higher-level student divergent thought and action. For convergent thought and action, the results were less con-clusive. An implication of the findings is that (research into) music education could benefit from interventions aimed at enhancing autonomy support in primary school music.
Veel managers worden geconfronteerd met verplichte certificering. Als bedrijven echter gedwongen worden de weg van certificering op te gaan, bestaat het risico dat de weerstanden worden versterkt - met name bij professionals. Onder welke voorwaarden zijn professionals wel bereid mee te werken aan certificering?
Higher education offers great flexibility as students are largely free to decide where, when, and how to study. Being successful in such an environment requires well-developed self-regulated learning skills. However, every teacher in higher education knows that students experience ample difficulty to self-regulate their learning. They struggle to set and plan learning goals, and to gain sufficient depth in learning when preparing for exams. These struggles can negatively impact their learning, well-being, academic achievement, and professional life. On top of the existing flexibility in higher education, a need for more flexibility in what students learn is becoming evident. That is, students have room for flexible learningapproaches (i.e., deciding what learning goals or materials to study and how) and/or flexible learning trajectories (i.e.,choosing what combination of courses to take). This places an additional burden on students’ self-regulated learning skills. We posit that for students to thrive in flexible higher education, practice-oriented research on supporting students’self-regulated learning skills is required. Our collaborative consortium will i) unravel how students can be optimally scaffolded within flexible learning approaches and flexible learning trajectories, ii) examine how to optimize teacher and technological support, and iii) study how student autonomy and motivation can be guarded. We will set up a practice-oriented research program with both qualitative and quantitative methods, including design-based research, action research, pre-post comparative intervention studies, and large-scale correlational research. The findings will impact higher education through (technological) design guidelines and intervention programs for educational professionals, andsupport-modules for students.
The increase in the number and complexity of crime activities in our nation together with shortage in human resources in the safety and security domain is putting extra pressure on emergency responders. The emergency responders are constantly confronted with sophisticated situations that urgently require professional, safe, and rapid handling to contain and conclude the situation to minimize the danger to public and the emergency responders. Recently, Dutch emergency responders have started to experiment with various types of robots to improve the responsiveness and the effectiveness of their responses. One of these robots is the Boston Dynamic’s Spot Robot Dog, which is primarily appealing for its ability to move in difficult terrains. The deployment of the robot in real emergencies is at its infancy. The main challenge that the robot dog operators are facing is the high workload. It requires the full attention to operate the robot itself. As such, the professional acts entirely as a robot operator rather than a domain expert that critically examines and addresses the main safety problems at hand. Therefore, there is an urgent request from these emergency response professionals to develop and integrate key technologies that enable the robot dog to operate more autonomously. In this project, we explore on how to increase the autonomy level of the robot dog in order to reduce the workload of the operator, and eventually help the operator remain domain expert. Therefore, we will explore the ability of the robot to autonomously 3D-map unknown confined areas. The results of this project will lead to new practical knowledge and a follow-up project that will focus on further developing the technologies that increase the autonomy of the robot for eventual deployment in operational environments. This project will also have direct contribution to education through involvement of students and lecturers.
Despite the vast potential drone technologies have, their integration to our society has been slow due to restricting regulations. Recently, a new EU-wide drone regulation has been published. This regulation is intended to harmonize the non-uniform national regulations across EU. It also relaxes the existing restrictions and allows previously prohibited operations that have significant socio-economic and technological impacts, such as autonomous BVLOS flights even over populated areas. However, there are challenges with regard to specifics and accessibilities of the required technological & procedural prerequisite this regulation entails. There is, therefore, a demand from SMEs for practical knowledge on technological and procedural aspects of a safe, robust and BVLOS operable security drone with short and long-term autonomy that fully complies to the new drone regulation. The required drone technologies include robust obstacle avoidance, intelligence failsafe for robust, reliable and safe autonomous flights with long-term autonomy capabilities. The operational procedures include SORA, pre/in/post-flight analysis and ROC/LUC permissions. In this project, these two aspects will be addressed in an integral manner. The consortium recognizes that developing such advanced security drone in two years is ambitious. Yet, they firmly believe that it is realizable due to the complementary expertise of the consortium and their commitment for the success of the project. With this project, the knowledge institutes will enrich their practical knowledge in the area of autonomous and BVLOS capable drones, operational procedures, risk analysis and mitigations. The partner companies will be equipped with the necessary technologies, operation permission and knowledge on optimal operation procedures to be at the forefront and benefit from the exploding market opportunities when the new regulation is fully implemented in July 2022. Moreover, this project will also make a demonstrable contribution to the renewal of higher professional education.
