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Case-Based Approximate Reasoning

  • Eyke Hüllermeier

Part of the Theory and Decision Library book series (TDLB, volume 44)

Table of contents

  1. Front Matter
    Pages I-XVI
  2. Eyke Hüllermeier
    Pages 5-16
  3. Eyke Hüllermeier
    Pages 17-57
  4. Eyke Hüllermeier
    Pages 59-102
  5. Eyke Hüllermeier
    Pages 103-164
  6. Eyke Hüllermeier
    Pages 165-228
  7. Eyke Hüllermeier
    Pages 229-251
  8. Eyke Hüllermeier
    Pages 253-305
  9. Eyke Hüllermeier
    Pages 307-308
  10. Back Matter
    Pages 309-372

About this book

Introduction

Case-based reasoning (CBR) has received a great deal of attention in recent years and has established itself as a core methodology in the field of artificial intelligence. The key idea of CBR is to tackle new problems by referring to similar problems that have already been solved in the past. More precisely, CBR proceeds from individual experiences in the form of cases. The generalization beyond these experiences typically relies on a kind of regularity assumption demanding that 'similar problems have similar solutions'.

Making use of different frameworks of approximate reasoning and reasoning under uncertainty, notably probabilistic and fuzzy set-based techniques, this book develops formal models of the above inference principle, which is fundamental to CBR. The case-based approximate reasoning methods thus obtained especially emphasize the heuristic nature of case-based inference and aspects of uncertainty in CBR. This way, the book contributes to a solid foundation of CBR which is grounded on formal concepts and techniques from the aforementioned fields. Besides, it establishes interesting relationships between CBR and approximate reasoning, which not only cast new light on existing methods but also enhance the development of novel approaches and hybrid systems.

This books is suitable for researchers and practioners in the fields of artifical intelligence, knowledge engineering and knowledge-based systems.

Keywords

artificial intelligence case-based reasoning fuzzy intelligence knowledge engineering knowledge-based system knowledge-based systems learning modeling probabilistic reasoning uncertainty

Authors and affiliations

  • Eyke Hüllermeier
    • 1
  1. 1.University of MagdeburgGermany

Bibliographic information