Synchronous computer mediated collaborative activities among collocated students: Conditions that ma
Synchronous collaborative activities are usually studied in conditions where teachers and students are physically separated. Is there any possibility to apply these activities when all participants are collocated? Does this collocated collaboration setting seems meaningful and for what reasons? Is the quality of learning and teaching process satisfactory high? Under what conditions? The present research explores the previous questions. More
specifically, it explores synchronous computer mediated
An Algebra Subsystem for Diagnosing Students' Input in a Physics Tutoring System
To help a student in an introductory physics course do quantitative homework problems, an intelligent tutoring system must determine information of an algebraic nature. This paper describes a subsystem which resolves such questions for Andes2. The capabilities of the subsystem would be useful for any ITS which deals with problems involving complex systems of equations. This subsystem is capable of 1) solving the systems of equations at the level of introductory physics problems, 2) checking the
Améliorer un dispositif pédagogique par l'intégration de nouveaux canaux de communication
LÂ’analyse des résultats de lÂ’expérimentation dÂ’un dispositif pédagogique instrumenté par les TIC pour un apprentissage de savoir faire par projets a mis en évidence des ruptures dans la communication. Ces ruptures sont liées à la difficulté dÂ’accès à Internet dans certaines situations (alternanceÂ…). Face à ce constat, nous avons décidé dÂ’introduire un nouveau canal de communication, a priori disponible en masse chez les étudiants : le téléphone mobile. Cette publication prÃ
Standard-compliant Scenario Building with Theoretical Justification in a Theory-aware Authoring Tool
Nowadays standard technologies play important roles in enhancing sharability, reusability and interoperability of learning contents. However, there is a lack of pedagogical justification of the contents implemented with the standards. This paper discusses the standard-compliance of our ontology-based modeling framework and how the framework gives theoretical justification to standard-compliant learning/instructional scenarios in a theory-aware authoring tool.,Poster in 13th International Confere
Herzberg : une simulation multimédia à interactivité variable
Herzberg est un environnement de simulation multimédia permettant de visualiser et d’explorer la vibration et la rotation des molécules. Il permet de créer des documents formés d’un ensemble de pages affichant une ou deux molécules dans des configurations prédéfinies; un texte et une voix d’explication peuvent être associés à chaque page. Il est possible de fixer pour chaque document le niveau d’interactivité. On peut également, sans effectuer de programmation, ajouter de nouvell
The Diver Project: Interactive Digital Video Repurposing
The digital interactive video exploration and reflection (Diver) system lets users create virtual pathways through existing video content using a virtual camera and an annotation window for commentary. Users can post their Dives to the WebDiver server system to generate active collaboration, further repurposing, and discussion. Although our current work focuses on video records in learning research and educational practices, Diver can aid collaborative analysis of a broad array of visual data re
Addressing the Challenges of Inquiry-Based Learning Through Technology and Curriculum Design
Inquiry experiences can provide valuable opportunities for students to improve their understanding of both science content and scientific practices. However, the implementation of inquiry learning in classrooms presents a number of significant challenges. We have been exploring these challenges through a program of research on the use of scientific visualization technologies to support inquiry-based learning in the geosciences. In this article, we describe 5 significant challenges to implementin
Using the WWW to Build Learning Communities in K-12 Settings - Part II: The Next Generation of Web S
In Part II, we will lay out a plan for an educational Web server that goes beyond what is currently available, providing a truly vital and useful resource for classroom learning. Finally, we will describe current plans for the CoVis Geosciences Web Server, an educational Web resource designed according to the plans outlined in this article.,web document
Hypermedia as a means for learning and for thinking about learning
This paper is about the design and realization of an experimentation with a hypermedial system, IPER-3, facing the three ‘classical’ problems in the history of mathematics (trisection of the angle, quadrature of the circle, duplication of the cube) and some issues which have developed around them. The aim of the work is to study the opportunities provided by hypermedial systems in dealing with topics of interest for the training of teachers and/or for class work, exploiting the possibility o
Technology and pedagogy for collaborative problem solving as a context for learning
This workshop, sponsored jointly by CSCW'92 and the Centre for Applied Cognitive Science at the Ontario Institute for Studies in Education (OISE), was organized to bring together researchers with interests in the emerging area of Computer Support for Collaborative Learning (CSCL). It was held at OISE on the weekend preceding CSCW'92 and was attended by 27 participants from academia and industry.
COML (Classroom Orchestration Modelling Language) and Scenarios Designer: Toolsets to Facilitate Col
In a one-to-one collaborative learning classroom supported by ubiquitous computing,
teachers require tools that allow them to design of learning scenarios, and to manage and
monitor the activities happening in the classroom. Our project proposes an architecture for
a classroom management system and a scenarios designer tool, both based on a Classroom
Orchestration Modelling Language (COML), to support these requirements. We are
developing and testing this with the GroupScribbles software using a
Computational Mathetics: Towards a Science of Learning Systems Design
The aim of this report is simply to help put the design of computer-based systems to support learning on a more scientific footing. The aim is simply stated, but its achievement is more difficult. For one thing, it is not at all obvious what "more scientific" means in this context. However, it is essential for AI-ED research to take better account of the concepts of 'situation', 'context', 'community', 'discourse', 'social learning', and so on, but these terms need to be defined, not used as man
A device helping learners to self-assess themselves
In this paper, we introduce the architecture of an environment, which aims at helping learners in their self-assessment process. We show how we integrated three systems to build an experimental device based on this architecture. We then present the experiment we conducted to
show the utility of this device and also to validate our hypothesis that it is easier for learners to self-assess themselves from an exercises-point of view than from a knowledge-point of view.
Combining qualitative evaluation and social network analysis for the study of classroom social inter
Studying and evaluating real experiences that promote active and collaborative learning is a crucial field in CSCL. Major issues that remain unsolved deal with the merging of qualitative and quantitative methods and data, especially in educational settings that involve both physical and computer-supported collaboration.
In this paper we present a mixed evaluation method that combines traditional sources of data with computer logs, and integrates quantitative statistics, qualitative data analysis
Pedagogical approaches for technology-integrated science teaching
The two separate projects described have examined how teachers exploit computer-based technologies in supporting learning of science at secondary level. This paper examines how pedagogical approaches associated with these technological tools are adapted to both the cognitive and structuring resources available in the classroom setting. Four teachers participated in the first study, undertaken as part of the InterActive Education project in Bristol; all of them used multimedia simulations in thei
Reuse of Digital Learning Resources in Collaborative Learning Environments
With background in the proliferation of Information- and Communication Technologies
(ICTs) in educational institutions, there is a growing interest in deploying ICT that complies
with specifications and standards for learning technologies in these institutions. A key
to obtaining the benefits of cost-efficiency and quality that motivate this interest is reuse of
digital learning resources. Despite the significant efforts being made in design and deployment
of learning technology standards facili
Mixing Microworld and Cas Features in Building Computer Systems that Help Students Learn Algebra
We present the design principles for a new kind of computer system that helps students learn algebra. The fundamental idea is to have a system based on the microworld paradigm that allows students to make their own calculations, as they do with paper and pencil, without being obliged to use commands, and to verify the correctness of these calculations. This requires an advanced editor for algebraic expressions, an editor for algebraic reasoning and an algorithm that calculates the equivalence of
APLUSIX, A learning environment for algebra, actual use and benefits
After a presentation of the APLUSIX system, a learning environment for formal algebra, we describe the use of this system in a French class of grade 10, in particular a sequence devoted to factorisations and equations, and an analysis of the students' work during this sequence. This study exhibits the influence of the tools provided by the software on the construction of competences in algebra. We also report the opinion of a teacher who used the APLUSIX system during one year with this class.
Educational Knowledge Based Environment
In this paper a knowledge based environment is represented which facilitates easy creation and preparation of wide range of educational software. The heart of the environment is the knowledge representation tool providing a hybrid knowledge representation formalism combining frames, production rules and logic. The environment is built on the basis of the logic programming language Prolog.
