Tools to Support Interaction and Collaboration Analysis (original) (raw)
Related papers
A tool to support Interaction and Collaboration Analysis of learning activities
An increasing amount of data is collected today during studies in which students and educators are engaged in learning activities using information technology and other tools. These data are indispensable for analysis and evaluation of learning activities, for evaluation of new tools and for students’ meta-cognitive activities. The data can take various forms, including video and audio recordings, log files of computing-related activity, field notes, results of students work in electronic or other forms, activity sheets etc. The need for analysis tools, which can annotate these data, classify them, process them and facilitate their inspection, is of increased importance especially for science education, since the latter involves experimentation and use of laboratory and other equipment that necessitate thorough off-line analysis and evaluation. In this paper we discuss first the key requirements of a new generation of interaction and collaboration analysis tools. We then present how these requirements have lead to the design of a prototype tool, recently developed. This tool can relate and synchronize various streams of field data. An important characteristic of the tool is its support for a multi-layer structure of annotations of various levels of abstraction, through which the activity can be interpreted and presented. This multi-layer representation can be inter-related to the raw field data, and can drive the navigation of the researcher in the activity data. An example of use of this tool for analysis and evaluation of a collaborative problem solving activity is also included.
A tool to support interaction and collaboration analysis of learning activity
2002
Abstract An increasing amount of data is collected today during studies in which students and educators are engaged in learning activities using information technology and other tools. These data are indispensable for analysis and evaluation of learning activities, for evaluation of new tools and for students' meta-cognitive activities. The data can take various forms, including video and audio recordings, log files of computing-related activity, field notes, results of students work in electronic or other forms, activity sheets etc.
2000
The definition of appropriate interaction analysis methods is a major research topic in Computer Supported Collaborative Learning. Analysis methods can be totally or partially supported by computer-based tools that provide for better and more efficient analysis processes. The current research in this field shows that most interaction analysis tools have been based on unstable prototypes, and are highly dependant on the learning environments and research goals for which they were defined. As a consequence, it is not possible to use them in authentic CSCL settings with real users. The goal of this European Research Team therefore is to utilize the synergies of experience in manual interaction analysis with computer-based analytical methods. In this article we present an approach that embeds standardized computer-supported techniques into a semi-formal analysis process model which can be utilized and adapted in a flexible way according to the cases and environments to be analysed.
Tools supporting Collaborative Learning and Interaction Analysis: Synergo and ActivityLens.
2008
This document1 presents two tools designed and developed by the Human-Computer Interaction Group of the University of Patras to support collaborative learning and collaborative interaction analysis. These are Synergo and ActivityLens. Synergo constitutes a synchronous collaboration support environment that provides integrated tools for analysis of interaction. A large corpus concerning online human interactions is generated and further analysed using Synergo.
An environment for studying collaborative learning activities
JOURNAL OF …, 2004
Studies of collaborative learning activities often involve analyses of dialogue and interaction as well as analyses of tasks and actors' roles through ethnographic and other field experiments. Adequate analysis tools can facilitate these studies. In this paper, we discuss key requirements of interaction and collaboration analysis tools. We indicate how these requirements lead to the design of new analysis environments. These environments support annotation and analysis of various kinds of collected data in order to study collaborative learning activities. An important characteristic of these tools is their support for a structure of annotations of various levels of abstraction, through which an activity can be interpreted and presented. This can serve as a tool for reflection and interpretation as well as for facilitation of research in collaborative learning.
An OBJECT-ORIENTED Method AND Tool FOR Studying Collaborative Activities
This paper provides an overview of a method and tool that have been used for studying interaction in the frame of synchronous collaborative problem solving activities. This method is based on the "Object-oriented Collaboration Analysis Framework (OCAF)", a framework that puts emphasis on the abstract and tangible objects that appear on the mediating computer screen during problem solving. The notions
2007
Abstract: We review systems that support the management of collaborative interaction, and propose a classification framework built on a simple model of coaching. Our framework distinguishes between mirroring systems, which display basic actions to collaborators, metacognitive tools, which represent the state of interaction via a set of key indicators, and coaching systems, which offer advice based on an interpretation of those indicators. The reviewed systems are further characterized by the type of interaction data they assimilate, the processes they use for deriving higher-level data representations, and the type of feedback they provide to users.
Method and tools for analysis of collaborative problem-solving activities
2000
This paper provides an overview of the "Object-oriented Collaboration Analysis Framework (OCAF)" a method proposed for analysis and evaluation of collaborative problem solving activities of groups of actors, mediated by collaboration-support technology. This framework puts emphasis on the abstract and tangible objects that appear during the development of a solution to a given problem. The notions of the "objects' histories"