210 likes | 352 Views
EIDA Project ( Proposal ). E mergency I ntelligent D ecision A ssistant: Toolkit for Coordinated Emergency Management. Research and Technical Background. by Claudio Balducelli Sandro Bologna , Adam Maria Gadomski. ENEA, July 1995. EIDA - Project (proposal). amg. Summary.
E N D
EIDAProject ( Proposal ) Emergency Intelligent Decision Assistant: Toolkit for Coordinated Emergency Management Research and Technical Background by Claudio Balducelli Sandro Bologna , Adam Maria Gadomski ENEA, July 1995
EIDA - Project (proposal) amg Summary Project Goals Project Methodologies and Tools Project Realization
EIDA Project amg Project Goals : Development of a domain-orientedtoolkitand its validation for a class of Emergency Management active Decision Support Systems. Toolkit : 1) Domain problem conceptualization tools 2) Modeling tools 3) Methodology, methods and techniques 4) Software design tools 5) Software modules
EIDA Project active Decision Support Systems Goal-driven decisional support which is based on: user role-model domain model M-M cooperation model
EIDA Project Project Methodology and Tools - TOGA Basic paradigmes: Top-down Object-based Goal-oriented Approach Basic conceptual couple: Intelligent Agent Environment interaction
EIDA Project Top-down and Object-based : Structural decomposition of concepts Top-down Object-based Representation of concepts in term of objects and relations
EIDA Project Goal-oriented (example): E-M goal (losses, risk, intervention,..) , search search Domain( losses generation events, riskobjects, ..) search support of search Toxic substances risk model Maps (...)
EIDA Project Project main phases 1 - User Requirement specification - Modeling 2 - Tools prototyping and verification 3 4 - Demos (user oriented applications) validation
EIDA Project Generic Emergency Management Scenario 1 N-th Decompositon level: . . . . . . Architecture of an ideal emergency manager 2 integration . . . . Model 1 Model 2 Model 3 Model n Sub-Model 1 . . . . Sub-Model m Sub-Model 2 selection integration . . . 3 Prototype 1 Prototype 2 Architecture of EIDA kernel Prototype m Verification modification User oriented demos 4 modification Validation
Formalization of the Applicative DomainWp1 Summary - Domain of EM Activity - EM Activities and Tasks - EM operators organizational structure
Formalization of the Applicative DomainWp1 Methods and Tools - Domain of EM Activity -> Reusing Muster Model - EM Activities and Tasks -> Use Task Analysis - Agents organizational structure ->ISEM Model Muster and ISEM are EUprojects.
Definition of Models and System Requirements Wp2 Summary - Definition of a Common Terminology - Single Agent Model - Decisional Model Based on Agents Cooperation
Definition of Models and System Requirements Wp2 Methods and Tools Physical Domain of Activity Single Agent Model ( TOGA Th.): Data acquisition Actions Abstract - Domain; a representation of Physical Domain of Activity AD AD New Information Decisions Agent Preference System P Goals K P Agent Knowledge System K
What-if simul. Domain models Emergency org. models Role-preferences Definition of Models and System Requirements Wp2 Methods and Tools -> GEMS top-activities loop Detecting/ monitoring Decision- Making Previsions Diagnostics Information acquisition: with/without request Cause searching Consequence searching Action / task choice Comunication Agent Evaluator Agent Diagnostic Agent Action Selector Agent
Definition of Models and System Requirements Wp2 Methods and Tools Diagnostic agent structure: Domain representation -> focused on the Causal Trees of the Emergency EventsandRisk Objects Preference System -> the agent goal is to send to the evaluator agent more and more precise informations about event causes and event characterization Knowledge System -> has the task to executeCause Searching Process. It could be based on Case Based Reasoning approach
Definition of Models and System Requirements Wp2 Methods and Tools Evaluator agent structure: Domain representation -> focused onCausal Trees of the Emergency Events andRisk Objects Preference System -> the agent goal is to refine evaluations performing aConsequence Searching Process Knowledge System -> is supported byNumerical Simulators and/or executes a qualitativeCase Based Reasoning
Definition of Models and System Requirements Wp2 Emergency propagation map Domain model primary event cause searching model registrated event consequence searching model Domain model - risk A.M.Gadomski, 1995
Definition of Models and System Requirements Wp2 Methods and Tools Action selector agent structure: Domain representation -> focused on organizational emergency structure, management resourcesand physicallayout; Preference System -> the agent goal is to choice the best recoveryactionsandprocedureson the basis of evaluation results; Knowledge System -> is composed by an action selector and an action executor. The action selector could be supported by a aRule Based processing.
Specification of EIDA ToolKit Kernel Wp3 Methods and Tools - Choose of adeguate final software environment. - Software functional Specification and Testing (for the different agents) using a Case Tool - Design a Protocol for Data exchange between the agents - Design the Users Interface architecture
Implementation and Validation of EIDA ToolKit Kernel Wp4 -Wp5 Methods and Tools - Incremental implementation of the EIDA software Agents - Verification and Validation of the produced Kernel modules respect at least two different Users oriented prototypes. - Generalization of the produced ToolKit to support its utilization in other application of the same class
Set of decision-support tools (agents) Intelligent interface (agent) EIDA System EIDA proposal Toolkit for Coordinated Emergency Management Coordinator Emergency manager