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Pedagogical Workflow Management: Functions and Procedures in Educational Settings

This document outlines the management of pedagogical procedures through various functions within educational workflows. It highlights function modeling, aggregation structures, and reproducing procedures via functions, using the ADISA-EXPLORA chain as a key example. The text discusses aggregation processes, orchestration methods, and prototype demonstrations that serve as specification drivers. An integrative approach to pedagogical management is emphasized, showcasing the role of designers, administrators, and learners in orchestrating effective learning environments.

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Pedagogical Workflow Management: Functions and Procedures in Educational Settings

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  1. Pedagogical workflow managementwith “functions” Ioan Rosca 18 nov.2004

  2. Summary 1 Pedagogy and management of procedures 2 Example: function modeling the ADISA-EXPLORA chain 3 Function- aggregate structure 4 Reproducing procedures by functions 5 Aggregation process 6 Aggregation by orchestration 7 Prototype demonstration 8 Demonstration chain 9 GEFO prototype as a specification driver 5 Prototype demonstration : an integrative story 6 Demonstration chain

  3. 1 Pedagogy and management of procedures RP RP resource observes acts RA A images op analyses decides concepts and rules RI thinks memory RO 1 knowledge understanding, as a cognitive procedure 3 management of a pedagogical procedure PA PA OI OI 4 auxiliary procedure 2 pedagogical management of a procedure

  4. 2 Example: function- modeling the ADISA-EXPLORA chain designer designs course ADISA Explora editor project ADISA course Explora defines project engineer explore course learner traces Explora report Reengineering Analyses traces Explora executor Analyzer Analyst

  5. 3 Function- aggregate structure Editor (F) Explorer (F) thin declarations RA(K) RI(K) C(K) S(K) K RP(K) AX(K) RO(K) components fat manipulators M(A) M(P) M(S) M(C) M(K) M(O) heavy AF(K)

  6. 4 Reproducing procedures by functions Primary phenomena P participants Used Ress. Product Ress. MetaFunction Editor Meta- Edition generation Demonstrator Engineers Spy observation observation imagination Metafunction execution MetaFunction generation Demonstrator Primary Edition Spy Function Editor Designers Driven edition designers Editor. Function execution Function P Utilizations secondary phenomena participants Used Ress. Product Ress. S Inspire guide, explain Declare, manage help Facilitate manipulations Coordinate, share match

  7. 5 Aggregation Process Phase 4 –Explore Phase 1 – Prepare Composition Explorer Products Traces Prepare Composition phase Composer Facilitator Support Phase 2 – Compose Compose Annotate Use resources Compose aggregates Composer Explorer Publish Define A structure Connect R resources Compose KSC layers Aggregate Classes Save and close Use aggregate Aggregate Uses support Explorer Facilitator Instances Prepare aggregate instance Administrator Load /Analyse product Phase 5 –Analyze Activate instance Phase 3 – Prepare Exploration Modify aggregate Analyzer References

  8. 6 Aggregation by orchestration Aggregation by integration Aggregation by grouping IMSLD WF Consortium TELOS functions Workflow orchestration Function orchestration Flowchart orchestration

  9. Edition operations 0 core construc 1 LKMS constr 2 LKMS instanciation 3 LKMA create (global) 3.1 a Prepare KVAL 3.1 b PrepareKMOT 3.1 c Prepare K list 3.2 a Declare UVAL 3.2 b DeclareUMOT 3.3a Prepare R 3.4a Declare RVAL 3.5 Edit F (global) 3.5.1 Intercep (global) 3.5.1.1 Inter K ref 3.5.1.2 Inter P(K) 3.5.1.3 Inter R(K) 3.5.2 Define Fl 3.5.2.1 DefineA(K) 3.5.2.2 DefineU(K) 3.5.2.3 DefineR(K) 3.5.2.4 Define S(K) 3.5.2.5 DefineC(K) 4 Declare inst global 4.1 Open 4.2 Adapt 4.3 Activate 5 Explore 6 Analyse Exploration facilities 1 A observe, navigate, consult 2 A declare advancement 3 A operation batches 4 S post and ante operation advice 5 S verify by questions 6 S(K) competence equilibriumadvice 7 R launch; intercept, timers 8 R concretizeresources 9 R(K) competence driven concretization 10 U person and category access 11 U access by profile 12 U(K)access by competence 13 U(K)concretize users (competence driven) 14 C aggregate actor and multi-actor floor control 15 C(K) competence driven user matching 16 C(K) ressource control and batches General flow function A1 replica 1 2 Application X1 Application X2 public 7 Prototype demonstration : an integrative story

  10. 8 Demonstration chain engineer technologist LKMS Administrator LKMA administrator learner facilitator LKMP Administrator designer 0 Creates core tool 1 Creates LKMS class 2 Parameterize LKMS instance 3 Creates LKMA1 4 Adapt instance 5 Execute 6 analyze 3.5 create function 3.1a edit K 3.2a Edit RP(K) 3.3a Prepare R 3.5.2 Edits 3.5.1 New function 3.5.3 Close class Designer M Designer F Designer K Designer U Designer R Designer I 3.5.2.1 Edit manual Activities chain 3.5.2.3 Flowchart edition Competence chain 3.5.2.Intercept report chain Edit U Edit K Edit R(K) Instruments Edit U(K) Users Edit U(K) Edit S(K) Edit C(K) Edit A(K)

  11. 9 GEFO prototype as a specification driver GEFO 1 GEFO 2 GEFO 3 Specification Specification Specification Architecture Architecture Architecture 1 1 1 Prototype Prototype Prototype Application Application Application Specification Specification Architecture Architecture 1 1 TELOS 0 Prototype Prototype Application Application TELOS 2 TELOS1 VAL

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