Synopses & Reviews
This textbook provides undergraduate students with an introduction to the basic theoretical models of computability, and develops some of the model's rich and varied structure. The first part of the book is devoted to finite automata and their properties. Pushdown automata provide a broader class of models and enable the analysis of context-free languages. In the remaining chapters, Turing machines are introduced and the book culminates in analyses of effective computability, decidability, and Gödel's incompleteness theorems. Students who already have some experience with elementary discrete mathematics will find this a well-paced first course, and a number of supplementary chapters introduce more advanced concepts.
Synopsis
The aim of this textbook is to provide undergraduate students with an introduction to the basic theoretical models of computability, and to develop some of the model's rich and varied structure. Students who have already some experience with elementary discrete mathematics will find this a well-paced first course, and a number of supplementary chapters introduce more advanced concepts. The first part of the book is devoted to finite automata and their properties. Pushdown automata provide a broader class of models and enable the analysis of context-free languages. In the remaining chapters, Turing machines are introduced and the book culminates in discussions of effective computability, decidability, and Godel's incompleteness theorems. Plenty of exercises are provided, ranging from the easy to the challenging. As a result, this text will make an ideal first course for students of computer science."
Synopsis
This textbook provides undergraduate students with an introduction to the basic theoretical models of computability. Students who have already some experience with elementary discrete mathematics will find this a well-paced first course. Plenty of exercises are provided, ranging from the easy to the challenging.
Description
Includes bibliographical references (p. [373]-379) and index.
Table of Contents
Introduction * Finite Automata and Regular Sets * Pushdown Automata and Context-Free Languages * Turing Machines and Effective Computability * Homework Sets * Miscellaneous Exercises * Hints and Solutions