Distributed symbol formation and processing in connectionist networks
Titel:
Distributed symbol formation and processing in connectionist networks
Auteur:
Dyer, Michael G.
Verschenen in:
Journal of experimental & theoretical artificial intelligence
Paginering:
Jaargang 2 (1990) nr. 3 pagina's 215-239
Jaar:
1990-07-01
Inhoud:
Distributed connectionist (DC) systems offer a set of processing features which are distinct from those provided by traditional symbol processing (SP) systems. In general, the features of DC systems are derived from the nature of their distributed representations. Such representations have a microsemantics -i.e. symbols with similar internal representations tend to have similar processing effects. In contrast, the symbols in SP systems have no intrinsic microsemantics of their own; e.g. SP symbols are formed by concatenating ASCII codes that are static, human engineered and arbitrary. Such symbols possess only a macrosemantics - i.e. symbols are placed into structured relationships with other symbols, via pointers, and bindings are propagated via variables. The fact that DC and SP systems each provide a distinct set of useful features serves as a strong research motivation for seeking a synthesis. What is needed for such a synthesis is a method by which symbols can dynamically form their own microsemantics, while at the same time entering into structured, recursive relationships with other symbols, thus developing also a macrosemantics. Here, we describe a general method, called symbol recirculation, for allowing symbols to form their own microsemantics. We then discuss three techniques for implementing variables and bindings in DC systems. Finally, we describe a number of DC systems, based on these techniques, which perform a variety of high-level cognitive tasks.
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