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1 Dynamic Generation of Agent Communities from Distributed Production and Content-Driven Delivery of Knowledge AAAI Spring Symposium on Agent-Mediated.

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Presentation on theme: "1 Dynamic Generation of Agent Communities from Distributed Production and Content-Driven Delivery of Knowledge AAAI Spring Symposium on Agent-Mediated."— Presentation transcript:

1 1 Dynamic Generation of Agent Communities from Distributed Production and Content-Driven Delivery of Knowledge AAAI Spring Symposium on Agent-Mediated Knowledge Management (AMKM-03) Sinuhé Arroyo Institut für Informatik IFI Next Generation Research Group University of Innsbruck, Austria Juan Manuel Dodero Computer Science Department Universidad Carlos III de Madrid Richard Benjamins Intelligent Software Components (iSOCO), S.A. Madrid, Spain

2 2 1.Introduction 2. Multi-agent collaborative production  Features and structure  Interaction within marts  Consolidation protocol 3. Case study  Course of the protocol  Results 4. Dynamics of markets 5. Conclusions Dynamic Generation of Agent Communities from Distributed Production and Content-Driven Delivery of Knowledge

3 Dodero, Arroyo. — AMKM 2003 Multi-agent system Case study Conclusions Intro Dynamic of markets –3– 1. Introduction  Collaborative knowledge management  KM processes  Distributed system  Collaborative creation  Task coordination needed  Creation or production  Different interaction policies: compete, cooperate, negotiate  Structured interaction  Delivery  Content-driven  Communities of interest delivery production acquisition Intro

4 Dodero, Arroyo. — AMKM 2003 Multi-agent system Case study Conclusions Intro Dynamic of markets –4– 2. Multi-agent collaborative production  Producers’ collaboration (e.g. instructional designers)  Asynchrony Development, exchange and evaluation of proposals are asynchronous. Different pace of creation  Different levels of knowledge (Domain-level knowledge)  Decision privileges (e.g. lecturers vs. assistants)  Conflicts  Multi-agent architecture motivation  Facilitates coordination when collaborating (e.g., compose a new educational resource)  Allows different interaction styles (e.g., compete, cooperate, or negotiate)  Organizes interaction in distributed, but interconnected domains of interaction Multi-agent system

5 Dodero, Arroyo. — AMKM 2003 Multi-agent system Case study Conclusions Intro Dynamic of markets –5– System features  From a functional perspective…  Consolidation of knowledge that is produced  From a structural perspective…  Multi-tiered structure  Agents operate in tightly-coupled hierarchical knowledge marts  Progressive consolidation of knowledge  From a behavioural perspective…  Affiliation of agents into marts  Evolution of marts Multi-agent system

6 Dodero, Arroyo. — AMKM 2003 Multi-agent system Case study Conclusions Intro Dynamic of markets –6– Interaction within marts Multi-agent system  Principles  Agent rationality modeled as preference relationships k1 > k2 or relevance functions u(k)  Relevant aspects modeled as RDF triples (object, attribute, value): Submitter’s hierarchical level Fulfilment of goals Time-stamp  Message exchange  Message types proposal ( knowledge, interaction ) consolidate ( knowledge, interaction )  Multicast, reliable transport facility

7 Dodero, Arroyo. — AMKM 2003 Multi-agent system Case study Conclusions Intro Dynamic of markets –7– Consolidation protocol Distribution Consolidation Idle Failure Success any message start (send proposal) receive any worse-evaluated receive consolidation better-evaluated t 0 expiresreceive proposal better-evaluated receive any worse-evaluated t 1 expires Distribution Consolidation Multi-agent system

8 Dodero, Arroyo. — AMKM 2003 Multi-agent system Case study Conclusions Intro Dynamic of markets –8– 3. Case study Case study  Learning Object  Course titled “Introduction to XML”  Roles  3 instructional designers, represented by agents A1..A3  A1 is a docent coordinator  Task  Development of the TOC  A1 submits p, A2 submits q, A3 does nothing  Proposals  p = Proposed manifest file with 6 chapters  q = Modified manifest file, divides up chapter 5 in two  Evaluation criteria  Fulfillment of objectives  Actor’s rank

9 Dodero, Arroyo. — AMKM 2003 Multi-agent system Case study Conclusions Intro Dynamic of markets –9– Course of the protocol A1A1 A2A2 A3A3 Proposal p A1A1 A2A2 A3A3 u(p) < u(q) Reply with q Proposal q u(p) < u(q) Start timeout t 1 Start timeout t 0 t 0 expires OK A1A1 A2A2 A3A3 Consolidate q Start timeout t 1 Termination: unsuccessful OK A1A1 A2A2 A3A3 Finish: successful t 1 expires Initial exchange of proposalsAfter receiving proposals Consolidation after t 0 expirationAfter t 1 expiration Proposal q Case study

10 Dodero, Arroyo. — AMKM 2003 Multi-agent system Case study Conclusions Intro Dynamic of markets –10– Results: quality (grade of fulfilment) Case study

11 Dodero, Arroyo. — AMKM 2003 Multi-agent system Case study Conclusions Intro Dynamic of markets –11– Results: consolidation lifetime Case study

12 Dodero, Arroyo. — AMKM 2003 Multi-agent system Case study Conclusions Intro Dynamic of markets –12– Results: number of conflicts Case study

13 Dodero, Arroyo. — AMKM 2003 Multi-agent system Case study Conclusions Intro Dynamic of markets –13– 4. Dynamics of markets  Dynamics of collaborative groups  Agents affiliate to marts depending on the kind of knowledge that they produce  Marts evolve (merge or divide) depending on the kind of knowledge consolidated within them  Agents arrangement  Cognitive distance d k between agents and marts  Defined from dissimilarity between issued proposals’ attributes  Agents operate in the nearest mart  Agents relocate based on Knowledge production  Evolution of groups  Mart fusion/division  MajorClust algorithm Dynamic of markets

14 Dodero, Arroyo. — AMKM 2003 Multi-agent system Case study Conclusions Intro Dynamic of markets –14– Dynamic of markets  Information brokering services  Content-driven delivery  Filters to deliver contents of interest  Publish/subscribe pattern  Communities of users  User agents subscribe to items of interest  User agents produce (publish) items  Brokers’ routing tables are built  Routing tables contain (hide) users’ layout into communities of interest Dynamic of markets

15 Dodero, Arroyo. — AMKM 2003 Multi-agent system Case study Conclusions Intro Dynamic of markets –15– Goal  Effective communications  Reduce amount of info shared by brokers  Reduce distance among agents and their interested marts  Evaluate  Mart’s optimal size  Cost of agent’s relocation related to brokers communication efforts  Impact of mart’s evolution in the service  Find best clustering algorithm  K-means, COBWEB, MajorClust,… etc Dynamic of markets

16 Dodero, Arroyo. — AMKM 2003 Multi-agent system Case study Conclusions Intro Dynamic of markets –16– 5. Conclusions  Features  Bottom-up, multi-agent approach to collaborative knowledge production systems  Dynamic building of user communities  Applicable to other collaborative KM production tasks e-Book & learning objects composition Calendar organization Software development (analysis & design)  Improvements  Further validation in multi-tiered scenarios  Test of mixed interaction styles (retract, substitute, reject)  Evaluation of dynamic evolution of marts Conclusions

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