Your search keyword '"CSCL scripts"' showing total 4 results

1. Deconstructing orchestration load: comparing teacher support through mirroring and guiding.

Author

Amarasinghe, Ishari, Hernández-Leo, Davinia, and Ulrich Hoppe, H.

Subjects

TEACHERS, COLLABORATIVE learning, PHASE transitions, STUDENT activities, DATA analysis, LINEAR network coding

Abstract

Under the notion of "CSCL scripts", different pedagogical models for structuring and supporting collaboration in the classroom have been proposed. We report on a practical experience with scripts based on the Pyramid collaborative learning flow pattern supported by a specific classroom tool and a teacher-facing dashboard that implements mirroring and guiding support. The input data of our analysis stems from recordings of classroom interactions guided by several teachers using the PyramidApp with different levels of teaching support. For the analysis, we introduce a specific coding scheme enabling a quantitative comparison and deeper analysis using epistemic network analysis. The results show that the guiding support enabled teachers to perform more orchestration actions, more targeted interactions and to make more announcements to the class (regarding time, phase transitions, and students' activity participation) when compared to the mirroring support. Teachers' actionable differences observed under the mirroring and guiding support directed us to deconstruct the notion of orchestration load into different facets and to discuss how different support provisions correspond to the different facets of orchestration load. [ABSTRACT FROM AUTHOR]

Published

2021

2. Teacher-led debriefing in computer-supported collaborative learning pyramid scripts

Author

Amarasinghe, I., Hernández-Leo, D., Kalpani Manathunga, Pérez, J. C., and Dimitriadis, Y.

Subjects

CSCL scripts, Debriefing, Orchestration, Learning analytics

Abstract

Comunicació presentada a: 15th International Conference on Computer-Supported Collaborative Learning (CSCL) 2022, celebrat del 6 al 9 de juny de 2022 a Hiroshima, Japó Debriefing is an integral part of orchestration and provides a space for teachers to review the learning experience. Although this concept is not new, little is known about how debriefing is conducted in scripted computer-supported collaborative learning situations, and its effects on students’ learning gains. Moreover, there is a lack of studies providing evidence of how learning analytics can be effectively utilised to support teacher-led debriefing. The objective of this study is twofold: Firstly, it studies how debriefing impacts students’ learning gains in Pyramid pattern-based learning situations. Secondly, it explores the types of learning analytics indicators that can support debriefing. Results indicated that debriefing can contribute to improve students’ learning gains, however, it does not always lead to the optimal outcomes and the type of task can have a major influence. Mechanisms such as semantic similarity score, knowledge graph visualisations and flag features are scrutinized as options to support debriefing. This work has been partially funded by the Spanish Ministry of Science and Innovation and the National Research Agency (PID2020-112584RBC33/MICIN/AEI/10.13039/501100011033 and PID2020-112584RB-C32). D. Hernández-Leo (Serra Húnter) acknowledges the support by ICREA under the ICREA Academia program.

Published

2022

3. Deconstructing orchestration load : Comparing teacher support through mirroring and guiding

Author

Davinia Hernández-Leo, Ishari Amarasinghe, and H. Ulrich Hoppe

Subjects

Class (computer programming), Computer science, Dashboard (business), Educational technology, Orchestration, Collaborative learning, computer.software_genre, Structuring, Collaboration, Education, Epistemic network analysis, Human-Computer Interaction, CSCL scripts, Informatik, Scripting language, Human–computer interaction, Dashboards, ComputingMilieux_COMPUTERSANDEDUCATION, Orchestration (computing), computer, Learning analytics, Mirroring

Abstract

Under the notion of “CSCL scripts”, different pedagogical models for structuring and supporting collaboration in the classroom have been proposed. We report on a practical experience with scripts based on the Pyramid collaborative learning flow pattern supported by a specific classroom tool and a teacher-facing dashboard that implements mirroring and guiding support. The input data of our analysis stems from recordings of classroom interactions guided by several teachers using the PyramidApp with different levels of teaching support. For the analysis, we introduce a specific coding scheme enabling a quantitative comparison and deeper analysis using epistemic network analysis. The results show that the guiding support enabled teachers to perform more orchestration actions, more targeted interactions and to make more announcements to the class (regarding time, phase transitions, and students’ activity participation) when compared to the mirroring support. Teachers’ actionable differences observed under the mirroring and guiding support directed us to deconstruct the notion of orchestration load into different facets and to discuss how different support provisions correspond to the different facets of orchestration load. TIDE-UPF acknowledges the support by FEDER, the National Research Agency of the Spanish Ministry, TIN2017-85179-C3-3-R, PID2020-112584RB-C33, MDM-2015-0502, and by ICREA under the ICREA Academia programme (D. Hernández-Leo, Serra Hunter).

Published

2021

4. The Orchestration of computer-supported collaboration scripts with learning analytics

Author

Amarasinghe, Ishari, Hernández-Leo, Davinia, Jonsson, Anders, 1973, and Universitat Pompeu Fabra. Departament de Tecnologies de la Informació i les Comunicacions

Subjects

Sistemas adaptativos, Tecnología educativa, Orquestación, Computer-Supported Collaborative Learning (CSCL), Orchestration, Aprendizaje Colaborativo Asistido por Ordenador (CSCL), Cuadros de mando, Pyramid CLFP, Collaborative Learning Flow Patterns (CLFPs), Adaptive systems, CSCL scripts, CLFP Pirámide, Patrones de Flujo de Aprendizaje Colaborativo (CLFP), Dashboards, Analítica de aprendizaje, Learning technologies, Learning analytics

Abstract

Computer-supported collaborative learning (CSCL) creates avenues for productive collaboration between students. In CSCL, collaborative learning flow patterns (CLFPs) provide pedagogical rationale and constraints for structuring the collaboration process. While structured collaboration facilitates the design of favourable learning conditions, orchestration of collaboration becomes an important factor, as learner participation and real-world constraints can create deviations in real time. On the one hand, limited research has examined the orchestration challenges related to collaborative learning situations scripted according to CLFPs in authentic educational contexts to resolve collaboration at different scales. On the other hand, learning analytics (LA) can be used to provide proper technological tooling, infrastructure and support to orchestrate collaboration. To this end, this dissertation addresses the following research question: How can LA support orchestration mechanisms for scripted CSCL? To address this question, this dissertation first focuses on studying the orchestration challenges associated with scripted CSCL situations on small scales (in the classroom learning context) and large scales (in the distance learning context, specifically in massive open online courses [MOOCs]). In the classroom learning context, lack of teacher access to activity regulation mechanisms constituted a key challenge. In MOOCs, sustained student participation in multiple phases of the script was a primary challenge. The dissertation also focuses on studying the design of LA interventions that might address the orchestration challenges under examination. The proposed LA interventions range from human-in-control to machine-in-control in nature given the feasibility and regulation needs of the learning contexts under investigation. Following a design-based research (DBR) methodology, evaluation studies were conducted in naturalistic classrooms and in MOOCs to evaluate the effects of the proposed LA interventions and to understand the conditions for their successful implementation. The results of the evaluation studies conducted in the classroom context shed light on how teachers interpret LA data and how they action the resulting knowledge in authentic collaborative learning situations. In the distance learning context, the proposed interventions were critical in sustaining continuous flows of collaboration. The practical benefits and limitations of deploying LA solutions in real-world settings, as well as future research directions, are outlined. El aprendizaje colaborativo asistido por ordenador (CSCL) ofrece oportunidades para la colaboración productiva entre estudiantes. En CSCL, los patrones de flujo de aprendizaje colaborativo (CLFP) proporcionan un fundamento pedagógico y restricciones para estructurar el proceso de colaboración. Si bien la colaboración estructurada facilita el diseño de condiciones de aprendizaje favorables, la orquestación de dicha colaboración estructurada se convierte en un factor importante, ya que la participación del alumno y los condicionantes del mundo real pueden crear desviaciones en el momento de su realización. Por un lado, existe una investigación limitada sobre los desafíos de la orquestación de aprendizaje colaborativo guiado según los CLFP en contextos educativos auténticos a diferentes escalas. Por otro lado, la analítica del aprendizaje (LA) se puede utilizar para proporcionar las herramientas tecnológicas, la infraestructura y el apoyo adecuados para orquestar la colaboración. Con este fin, esta tesis doctoral plantea la siguiente pregunta de investigación: ¿Cómo puede LA apoyar los mecanismos de orquestación de guiones de CSCL? Para abordar esta pregunta, la tesis doctoral se centra, primero, en estudiar los desafíos de la orquestación en situaciones CSCL guiadas a pequeña escala (en el contexto del aula) y a gran escala (en el contexto de aprendizaje a distancia, específicamente en cursos masivos abiertos en línea [MOOC]). En el contexto del aula, un reto imporante es la falta de acceso de los docentes a los mecanismos de regulación de la actividad. En los MOOC, el reto principal es sostener la participación de los estudiantes a lo largo de las diversas fases del guión. La tesis doctoral también se centra en estudiar el diseño de intervenciones de LA que podrían abordar los retos de orquestación detectados. Dadas las necesidades de viabilidad y regulación de los contextos de aprendizaje investigados, las intervenciones de LA propuestas van desde acciones automáticas donde la “máquina está en control” a intervenciones que implican “control por humanos”. Siguiendo una metodología de investigación basada en el diseño (DBR), se han realizado estudios en aulas y en MOOCs para evaluar los efectos de las intervenciones de LA propuestas y comprender las condiciones para su buena implementación. Los resultados de la evaluación realizada en el contexto del aula arrojan luz sobre cómo los profesores interpretan los datos de LA y cómo actúan en consecuencia en situaciones auténticas de aprendizaje colaborativo. En el contexto de la educación a distancia, las intervenciones propuestas fueron fundamentales para mantener flujos continuos de colaboración. La tesis docotral describe los beneficios prácticos y las limitaciones a la hora de implementar soluciones de LA en entornos reales, así como las direcciones de investigación futuras.

Published

2020