Title :
Implementation of knowledge-based system for iron core inductor design
Author :
Sadeghian, A. ; Lavers, J.D.
Author_Institution :
Dept. of Math., Ryerson Univ., Toronto, Ont., Canada
Abstract :
We describe the implementation of a knowledge-based system for designing iron core inductors. We identify the underlying issues related to the implementation of such a system. We employ a recursive design methodology based on imitating an expert human designer that is suitable for embedding in the knowledge-based system. A hybrid knowledge base, using both frame-based and rule-based paradigms, together with assertions and procedural attachment, captures inductor-oriented design expertise. The paper establishes a general framework whereby dedicated knowledge-based systems for electromagnetic design can be built. It presents results that illustrate the performance of the developed system, particularly in comparison to the standard design procedure found in the literature.
Keywords :
inductors; iron; knowledge based systems; magnetic cores; Fe; electromagnetic design; electromagnetic devices; frame-based paradigm; hybrid knowledge base; iron core inductor design; knowledge-based system; recursive design methodology; rule-based paradigm; Design methodology; Design optimization; Electromagnetic devices; Frequency; Inductors; Iron; Knowledge based systems; Magnetic cores; Switches; Transformers; 65; Design methodology; electromagnetic devices; inductors; knowledge-based systems;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2004.837488
