Nowadays knowledge-based systems research and development essentially employs two paradigms of reasoning. There are on the one hand the logic-based approaches where logic is to be understood in a rather broad sense; usually these approaches are used in symbolic domains where numerical calculations are not the core challenge. On the other hand we find approximation oriented reasoning; methods of these kinds are mainly applied in numerical domains where approximation is part of the scientific methodology itself. However, from an abstract level all these approaches do focus on similar topics and arise on various levels such as problem modeling, inference and problem solving techniques, algorithms and mathematical methods, mathematical relations between discrete and continuous properties, and are integrated in tools and applications. In accordance with the unifying vision and research interest of Michael M. Richter and in correspondence to his scientific work, this book presents 13 revised full papers advocating the integration of logic-based and approximation-oriented approaches in knowledge processing.Axis buildingblock Control building block A: C: A 3 A 1 A 2 C 1 C 2 A 2 A 1 C C A 3 A 3 C A 1 A 2 parallel series sequential Fig. 9. ... There is a good chance that a raw design M has the potential to fulfill D, say, that a sequence of repair steps can be found to transform M ... 11 Test environment was a Pentium III system at 450.

Title | : | Logic Versus Approximation |

Author | : | Wolfgang Lenski (Ed ) |

Publisher | : | Springer Science & Business Media - 2004-10-27 |

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