Datalog and logic databases
Author(s)
Bibliographic Information
Datalog and logic databases
(Synthesis lectures on data management, #41)
Morgan & Claypool, c2016
- : pbk
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Note
Bibliography: p. 135-153
Description and Table of Contents
Description
The use of logic in databases started in the late 1960s. In the early 1970s Codd formalized databases in terms of the relational calculus and the relational algebra. A major influence on the use of logic in databases was the development of the field of logic programming. Logic provides a convenient formalism for studying classical database problems and has the important property of being declarative, that is, it allows one to express what she wants rather than how to get it.
For a long time, relational calculus and algebra were considered the relational database languages. However, there are simple operations, such as computing the transitive closure of a graph, which cannot be expressed with these languages. Datalog is a declarative query language for relational databases based on the logic programming paradigm. One of the peculiarities that distinguishes Datalog from query languages like relational algebra and calculus is recursion, which gives Datalog the capability to express queries like computing a graph transitive closure.
Recent years have witnessed a revival of interest in Datalog in a variety of emerging application domains such as data integration, information extraction, networking, program analysis, security, cloud computing, ontology reasoning, and many others. The aim of this book is to present the basics of Datalog, some of its extensions, and recent applications to different domains.
Table of Contents
Acknowledgments
Introduction
Logic and Relational Databases
Datalog
Negation
Function Symbols
Aggregates
Query Optimization
Applications
Bibliography
Authors' Biographies
by "Nielsen BookData"