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Group-oriented Modelling Tools with Heterogeneous Semantics Niels Pinkwart COLLIDE Research Group University of Duisburg, Germany.

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Presentation on theme: "Group-oriented Modelling Tools with Heterogeneous Semantics Niels Pinkwart COLLIDE Research Group University of Duisburg, Germany."— Presentation transcript:

1 Group-oriented Modelling Tools with Heterogeneous Semantics Niels Pinkwart COLLIDE Research Group University of Duisburg, Germany

2 IT & CSCL mainly based on: Computer-mediated communication -Sharing of resources -Distribution of material -Digital archives Usually: No semantic processing of the information Another tendency: Mind tools “Computational objects to think with” Collaborative discovery learning

3 New / Current challenge: “Computational objects to think with” in a collaborative framework allowing co-learners to synchronously -Construct and elaborate external representations -Make use of the semantics embedded in these representations -Discuss and share their work flexibly Core Problems: Hard-coded interpretation schemes are not really the aim The degree of semantics / structure differs and is domain-dependent (from “formal” to “informal”)

4 Examples for domain-specific languages: Petri nets System dynamics Visual programming languages UML Formal semantics Discussion elements Partial / No formal semantics Hand-written comments Idea: “Plug-In” semantics and interpretation schemes in a generic collaborative environment

5 Aims : External definition of semantically enriched languages The possibility of flexibly mixing these languages “Multi-functional and multi-representational tools” “Extension of paper&pencil” … and all this with co-operation support Main Advantage: Work without loosing domain or social context Usage scenarios: Networked ubiquitous (mobile) environments Presentations & collaborative work

6 Principles of Cool Modes (Collaborative Open Learning, Modeling and Designing System) shared workspace environment workspaces consist of different layers which can contain “solid” objects (synchronizeable visual representations) flexible co-operation modes “Palettes”: The language plug-ins offer the objects to work (or: think!) with encapsulate the domain dependent semantics are externally defined

7 Co-operation support in Cool Modes (bases on MatchMaker TNG) by Workspace by Layer by Element …

8 Co-operation support in Cool Modes Example: layer-wise coupling

9 Domain-dependent Elements - Definition Reference frames define the domain-dependent elements and their relations (nodes and edges) offer the possibility for simulations, modelling, … (local and global algorithms) have a visual interface themselves (Palette) can at runtime be added / removed (“plug-in”)

10 Domain-dependent Elements - Definition Nodes Model – used for synchronization (Serializable) View – (JComponent) Controller – event processing (generic & domain-dependent) Edges similar to nodes additionally: rule-sets (e.g. in Petri Nets)

11 Domain-dependent Elements - Definition Cool Modes framework Ref. FramePalette Edges Nodes Workspace defines shown in offers used in consults for interpretation Semantic EventHandler includes knows

12 Domain-dependent Elements – Interpretation principles 1.Reference Frames define the semantic relations and are responsible for objects in one domain “understanding” each other 2.They provide event-driven rules (  domain ontology ) 3.Events generated through user actions contain the changed models as parameter 4.There are generic “local” and “global” events 5.Specific domain-dependent events can be freely defined

13 Domain-dependent Elements – Global events Fired upon a change in a workspace Typical listener: reference frame itself Event types: Adding, Removing and Moving Nodes/Edges Element presence / absence (“Are required elements available?”) Spatial relations in a workspace (“Are items arranged correctly?”) Algorithms of the abstract graph structure (e.g. connectivity checks) Checking and modifying node/edge models (e.g. for running simulations)

14

15 Domain-dependent Elements – Global events Fired upon a change in a workspace Typical listener: reference frame itself Event types: Adding, Removing and Moving Nodes/Edges Element presence / absence (“Are required elements available?”) Spatial relations in a workspace (“Are items arranged correctly?”) Algorithms of the abstract graph structure (e.g. connectivity checks) Checking and modifying node/edge models (e.g. for running simulations)

16 Domain-dependent Elements – Local events Fired upon a change in a node or edge model Typical listeners: nodes Event types: Adding and Removing Edges, Changing Models Local graph algorithms and model changes (e.g. in Petri Nets) Context-based feedback (e.g. for hints or “lightweight” corrections)

17 Current and future development Applications Stochastics exploration Interaction analysis Extension of the MatchMaker communication server “undo/redo” logging and replay Integration of mobile devices - “lightweight clients” Extended use of XML (not only for storage) SOAP interfaces for synchronization

18 Niels Pinkwart e-mail: pinkwart@collide.info web: http://www.collide.info

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