Topics in Expert System Design: Methodologies and ToolsGiovanni Guida, Carlo Tasso North-Holland, 1989 - 441 pages Expert Systems are so far the most promising achievement of artificial intelligence research. Decision making, planning, design, control, supervision and diagnosis are areas where they are showing great potential. However, the establishment of expert system technology and its actual industrial impact are still limited by the lack of a sound, general and reliable design and construction methodology. |
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Page 9
... effectively applying them . An industrial methodology for expert system development should be designed to satisfy two ... effective , i.e. it should support easy planning and control of project development for what concerns activities ...
... effectively applying them . An industrial methodology for expert system development should be designed to satisfy two ... effective , i.e. it should support easy planning and control of project development for what concerns activities ...
Page 88
... effective operational support systems which can be placed in service at the start of operations . In addition , because both system design and operations will inevitably change significantly , flexibility to modify and extend the ...
... effective operational support systems which can be placed in service at the start of operations . In addition , because both system design and operations will inevitably change significantly , flexibility to modify and extend the ...
Page 251
... effective approach to gain broad perspective of the demands of the domain than the approach typically recommended of having the expert select and discuss a small set of examples ( Hayes - Roth , Waterman & Lenat , 1983 ) . Focusing ...
... effective approach to gain broad perspective of the demands of the domain than the approach typically recommended of having the expert select and discuss a small set of examples ( Hayes - Roth , Waterman & Lenat , 1983 ) . Focusing ...
Contents
From life cycle to development | 3 |
Choosing an expert system domain | 27 |
Tools and motivations | 47 |
Copyright | |
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abstract activities AI Magazine application approach Artificial Intelligence assessment attribute backward chaining behavior Breuker building cognitive complete components Computer concepts conceptual model construction context cycle decision defined described diagnosis domain expert domain knowledge environment example expert system development expert system evaluation expert system technology expertise facilities Figure formal function goal graphical heuristics identified implementation important inductive input instance integrated interaction interface interpretation models KADS KCML knowledge acquisition knowledge base Knowledge Craft knowledge elicitation knowledge engineer knowledge representation knowledge-based systems KRITON language layer LISP machine machine learning metaclasses methodology methods model-based reasoning MYCIN objects operations OPS5 output particular performance phase possible problem solving problem solving process produce programming Prolog protocol analysis prototype refinement relations reliability repertory grid represent requirements rule-based rules selection shells situations software engineering solution specific strategies target system task techniques types validity values