Reading in TOGA

 ( articles and presentations from the period 1986-2002 are for downloading)

 

Edited by    Roberto Fonzo (Univ. La Sapienza)  - in updating yet

 

Preface

 

Index:

 

Introduction : Interview to A.M. Gadomski

 

Part 1: Theory

 

 

            Session 1: Making a Theory

                       

·         Application of System-Process-Goal Approach for description of TRIGA RC1 System

(A.M.Gadomski, 1986)

 

·         The approach to the integrated & complete representation of complex artificial phisical systems

(A.M.Gadomski,V.Nanni, 1991)

 

·         Intelligent Computer Aid for Operators: TOGA Based Conceptual Framework

(A.M.Gadomski,V.Nanni, 1992)

 

·         Action-Oriented Decision-Making: TOGA Methodological Approach

(A.M.Gadomski, 1992)

 

·         Patterns for Conceptualization of Knowledge on Technological Systems and Human Organizations

(A.M.Gadomski, 1993)

 

 

Session 2: State of the art

 

·         TOGA: A methodological and Conceptual Pattern for Modelling of Abstract Intelligent Agent

(A.M.Gadomski, 1993)

 

·         Structural procedures of Situation-Assessment for Autonomous Intelligent Reasoning Module

(A.M.Gadomski, 1993)

 

·         Intelligent-Agent’ World in TOGA conceptualization

(A.M.Gadomski, 1994)

 

·         Some Theoretical and Practical Aspect of Modeling Abstract Intelligent Agent

(A.M.Gadomski,V.Nanni, S.Taglienti, 1994)

 

·         Personoids Organizations: An Approach to Highly Autonomous Software Architectures

(A.M.Gadomski, 1997)

 

·         Contesto TOGA per la progettazione di un Agente Intelligente Astratto ed il suo Decision-Making

(A.M. Gadomski, S. Cecacci, 1999)

 

·         Intelligent Decision Support System : TOGA Cognitive Agent

(A.M.Gadomski,F.Pestilli, 1999)

 

·         Affidabilità e sicurezza di funzionamento dei sistemi basati su calcolatore

(A.M.Gadomski, 1999)

 

·         Meta-criteria for intelligence validation

(A.M.Gadomski, 2001)

 

·         Socio-Cognitive Engineering Foundations and Applications: From Human to Nations

(A.M.Gadomski, 2001)

 

·         Socio-Cognitive Engineering Scenarios for the Reinforcement of Global Business Intelligence: TOGA Approach

(A.M.Gadomski, 2002)

 

·         Systemic Approach for Sophocles global specification

(A.M.Gadomski, 2002)

 

·         Case study analysis of disturbs in spatial cognition unified TOGA approach

(A.M.Gadomski, A.Salvatore, A. Di Giulio, 2003)

 

 

 

Part 2: Applications

 

·         Identification of structure of italian emergency system by using toga methodology

(A.M.Gadomski, 1989)

 

·         Oportunities and visions of automation in the context of artificial intelligence technology development

(A.M.Gadomski)

 

·         Intelligent Agents in Computer Supported Training for Emergency Management

(C.Balducelli, A.M.Gadomski, 1994)

 

·         Computer Aided Training for Cooperating Emergency Managers: Some Results of MUSTER Project

(C. Balducelli, S. Bologna, G. Di Costanzo, A.M. Gadomski, G. Vicoli, 1995)

 

·         Intelligent Decision Support for Cooperating Emergency Managers: the TOGA based Conceptualization Framework

(A.M. Gadomski, S. Bologna, G. Di Costanzo, 1995)

 

·         Multi-Intelligent-Agent Approach in the Computer Assisted Industrial-Emergency Management

(A.    M. Gadomski, S. Bologna, C. Balducelli, G. DiCostanzo, G. Vicoli, 1996)

 

·         Integrated Parellel Bottom-up and Top-down Approach to the Development of Agent-based Intelligent DSSs for Emergency Management

(A.M.Gadomski, C. Balducelli, S. Bologna, G. DiCostanzo, 1998)

 

·         Active DSS for industrial emergency management based on GIS

(G. Di Costanzo, A.M.Gadomski, 1998)

 

·         An Approach to the Intelligent Decision Advisor (IDA) for Emergency Managers

(A.    M.Gadomski, S. Bologna, G.DiCostanzo, A.Perini, M. Schaerf, 1999)

 

·         A Prototype of an Active Decision Support System for Automatic Planning Support in Emergency Management

(G. Di Costanzo, C.Balducelli, A.M.Gadomski, 2000)

 

·         Agenti cognitivi semi-intelligenti per imprese virtuali di e-learning

(A.M.Gadomski, F.Fontana)