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Third International Workshop CIA-99 Cooperative Information Agents. A Similarity Evaluation Technique for Cooperative Problem Solving with a Group of Agents. Seppo Puuronen, Vagan Terziyan. July 31 - August 2, 1999 Uppsala (Sweden). Authors. Seppo Puuronen. sepi@jytko.jyu.fi.
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Third International Workshop CIA-99 Cooperative Information Agents A Similarity Evaluation Technique for Cooperative Problem Solving with a Group of Agents Seppo Puuronen, Vagan Terziyan July 31 - August 2, 1999 Uppsala (Sweden)
Authors Seppo Puuronen sepi@jytko.jyu.fi Vagan Terziyan vagan@jytko.jyu.fi Department of Computer Science and Information Systems University of Jyvaskyla FINLAND Department of Artificial Intelligence Kharkov State Technical University of Radioelectronics, UKRAINE
Contents • The Research Goal • Basic Concepts • External Similarity Evaluation • An Example • Internal Similarity Evaluation • Conclusions
Goal • The goal of this research is to develop simple similarity evaluation technique to be used for cooperative problem solving based on opinions of several agents • Problem solving here is finding of an appropriate solution for the problem among available ones based on opinions of several agents
Basic Concepts:Virtual Training Environment (VTE) • VTEof a group of agents is a quadruple: <D,C,S,P> • Dis the set of problems D1, D2,..., Dn in the VTE; • C is the set of solutions C1, C2,..., Cm ,that are used to solve the problems; • Sis the set of agents S1, S2,..., Sr , who selects solutions to solve the problems; • Pis the set of semantic predicates that define relationships between D, C, S
External Similarity Values External Similarity Values (ESV): binary relations DC, SC, and SD between the elements of (sub)sets of D and C; S and C; and S and D. ESV are based on total support among all the agents for voting for the appropriate connection (or refusal to vote)
Internal Similarity Values Internal Similarity Values (ISV): binary relations between two subsets of D, two subsets of C and two subsets of S. ISV are based on total support among all the agents for voting for the appropriate connection (or refusal to vote)
Why we Need Similarity Values (or Distance Measure) ? • Distance between problems is used by agents to recognize nearest solved problems for any new problem • distance between solutions is necessary to compare and evaluate solutions made by different agents • distance between agents is useful to evaluate weights of all agents to be able to integrate them by weighted voting.
Deriving External Relation DC:How well solution fits the problem Solutions Problems Agents
Deriving External Relation SC:Measures Agents Competence in the Area of Solutions • The value of the relation (Sk,Cj) in a way represents the total support that the agent Sk obtains selecting (refusing to select) the solution Cj to solve all the problems.
Example of SC Relation Solutions Problems Agents
Deriving External Relation SD:Measures Agents Competence in the Problem’s Area • The value of the relation (Sk,Di) represents the total support that the agent Sk receives selecting (or refusing to select) all the solutions to solve the problem Di.
Example of SD Relation Problems Solutions Agents
Standardizing External Relations to the Interval [0,1] nis the number of problems mis the number of solutions ris the number of agents
Agent’s Evaluation:Competence Quality in Problem Area - measure of the abilities of an agent in the area of problems from the support point of view
Agent’s Evaluation:Competence Quality in Solutions’ Area - measure of the abilities of an agent in the area of solutions from the support point of view
Quality Balance Theorem The evaluation of an agent competence (ranking, weighting, quality evaluation) does not depend on the competence area “virtual world of problems” or “conceptual world of solutions” because both competence values are always equal.
Proof ... ...
An Example • Let us suppose that four agents have to solve three problems related to the search of information in WWW using keywords and search machines available. • The agents should define their selection of appropriate search machine for every search problem. • The final goal is to obtain a cooperative result of all the agents concerning the “search problem - search machine” relation.
C (solutions) Set in the Example Solutions - search machinesNotation AltaVista C1 Excite C2 Infoseek C3 Lycos C4 Yahoo C5
S (agents) Set in the Example Agents Notation Fox S1 Wolf S2 Cat S3 Hare S4
Selections Made for the Problem“Fishing in Finland” D1 P(D,C,S) C1 C2 C3 C4 C5 S11 -1 -1 0 -1 S20+ -1** 0 ++ 1* -1*** S30 0 -1 1 0 S41 -1 0 0 1 Agent Wolf prefers to select Lycos*to find information about “Fishing in Finland” and it refuses to select Excite** or Yahoo***. Wolf does not use or refuse to use the AltaVista+or Infoseek++.
Selections Made for the Problem“NOKIA Prices” D2 P C1 C2 C3 C4 C5 S1-1 0 -1 0 1 S21 -1 -1 0 0 S31 -1 0 1 1 S4-1 0 0 1 0
Selections Made for the Problem“Artificial Intelligence” D3 P C1 C2 C3 C4 C5 S11 0 1 -1 0 S20 1 0 -1 1 S3-1 -1 1 -1 1 S4-1 -1 1 -1 1
Results of Agents’ Competence Evaluation (based on SC and SD sets) … Selection proposals obtained from the agent Fox should be accepted if they concern search machines Infoseek and Lycos or search problems related to “Fishing in Finland” and “Artificial Intelligence”, and these proposals should be rejected if they concern AltaVista or “NOKIA Prices”. In some cases it seems to be possible to accept selection proposals from the agent Fox if they concern Excite and Yahoo. All four agents are expected to give an acceptable selection concerning “Artificial Intelligence” related search and only suggestion of the agent Cat can be accepted if it concerns “NOKIA Prices” search ...
Deriving Internal Similarity Values Via one intermediate set Via two intermediate sets
Internal Similarity for Agents:Problems-based Similarity Problems Agents
Internal Similarity for Agents:Solutions-Based Similarity Solutions Agents
Internal Similarity for Agents:Solutions-Problems-Based Similarity Problems Solutions Agents
Conclusion • Discussion was given to methods of deriving the total support of each binary similarity relation. This can be used, for example, to derive the most supported solution and to evaluate the agents according to their competence • We also discussed relations between elements taken from the same set: problems, solutions, or agents. This can be used, for example, to divide agents into groups of similar competence relatively to the problems-solutions environment