A Course in Discrete Structures

Digital Notes On Discrete Mathematics

This note explains the following topics related to Discrete Mathematics : Mathematical Logic, Relations, Algebraic structures, Elementary Combinatorics, Recurrence Relation, Graph Theory.

Author(s): Malla Reddy College Of Engineering and Technology

88 Pages

Discrete Mathematics by Andrew D. Ker

This PDF covers the following topics related to Discrete Mathematics : Introduction, Sets, Functions, Counting, Relations, Sequences, Modular Arithmetic, Asymptotic Notation, Orders.

Author(s): Andrew D. Ker, Oxford University Computing Laboratory

125 Pages

Discrete Mathematics by William Chen

This page covers the following topics related to Discrete Mathematics : Logic and Sets, Relations and Functions, the Natural Numbers, Division and Factorization , Languages, Finite State Machines, Finite State Automata, Turing Machines, Groups and Modulo Arithmetic, Introduction to Coding Theory, Group Codes, Public Key Cryptography, Principle of Inclusion-exclusion, Generating Functions, Number of Solutions of a Linear Equation, Recurrence Relations, Graphs, Weighted Graphs, Search Algorithms, Digraphs.

Author(s): William Chen

NA Pages

Discrete Structures by Allen Gehret

This PDF covers the following topics related to Discrete Mathematics : Introduction, Propositional Logic, Sets, and Induction, Relations, Functions, Counting, Sequences,  Graphs and trees, A glimpse of infinity.

Author(s): Allen Gehret, UCLA

119 Pages

Lecture Notes On Discrete Mathematical Structures iare

The contents include: Mathematical Logic, Relations, Algebraic structures, Recurrence Relation, Graph Theory.

Author(s): Mrs. B Pravallika, Assistant Professor,Information Technology, Institute of Aeronautical Engineering

95 Pages

Discrete Mathematics II Set Theory for Computer Science

The aim of this note is to introduce fundamental concepts and techniques in set theory in preparation for its many applications in computer science. Topics covered includes: Mathematical argument, Sets and Logic, Relations and functions, Constructions on sets, Well-founded induction.

Author(s): Glynn Winskel

112 Pages

Discrete Mathematics Course Notes by Drew Armstrong

This note explains the following topics: Induction and Recursion, Steiner’s Problem, Boolean Algebra, Set Theory, Arithmetic, Principles of Counting, Graph Theory.

Author(s): Drew Armstrong

151 Pages

A Collection of Short Lectures on Discrete Mathematics

This note covers the following topics: Boolean Logic, Sets, Predicate Logic, Sequences, Recursion, Mathematical Induction, Relations, Functions, Naming Systems, Number Systems, Proofs.

Author(s): William D Shoaff

NA Pages

A Course in Discrete Structures

This note covers the following topics: Sets, Functions and Relations, Proofs and Induction, Number Theory, Counting, Probability, Logic, Graphs, Finite Automata.

Author(s): Rafael Pass and Wei-Lung Dustin Tseng

153 Pages

Lectures In Discrete Mathematics

This note explains the following topics: Arithmetic, Logic and Numbers, Boolean Functions and Computer Arithmetic, Number Theory and Cryptography, Sets, Equivalence and Order, Functions, Induction, Sequences and Series, Lists, Decisions and Graphs, Basic Counting and Listing, Decision Trees, Basic Concepts in Graph Theory.

Author(s): Edward A. Bender and S. Gill Williamson

NA Pages

Discrete Mathematics for Computer Science

The goal of this lecture note is to introduce students to ideas and techniques from discrete mathematics that are widely used in Computer Science. This note covers the following topics: Propositional logic, Induction, Strong induction, Structural induction, Proofs about algorithms, Algebraic algorithms, Number theory, RSA, Basics of counting, basic probability,Conditional probability, Linearity of expectation, variance.

Author(s): Mike Clancy, David Wagner

NA Pages

Notes on Discrete Mathematics Miguel A. Lerma

This note covers the following topics: Logic, Proofs, Sets, Functions, Relations, Algorithms, Integers, Induction, Recurences, Counting, Probability, Graph Theory, Trees, Boolean Algebra, Automata, Grammars and Languages.

Author(s): Miguel A. Lerma

154 Pages

Discrete Mathematics Study Guide UVIC

This note covers the following topics: Logic and Foundations, Proposition logic and quantifiers, Set Theory, Mathematical Induction, Recursive Definitions, Properties of Integers, Cardinality of Sets, Pigeonhole Principle, Combinatorial Arguments, Recurrence Relations.

Author(s): Dr. Gary MacGillivray

NA Pages

Fundamental Problems in Algorithmic Algebra

This book explains the following topics: Arithmetic, The Greatest Common Divisor, Subresultants, Modular Techniques, Fundamental Theorem of Algebra, Roots of Polynomials, Sturm Theory, Gaussian Lattice Reduction, Lattice Reduction and Applications, Linear Systems, Elimination Theory, Groebner Bases, Bounds in Polynomial Ideal Theory and Continued Fractions.

Author(s): Chee Yap

NA Pages

Introduction to Complexity Classes

This book explains the following topics: Computability, Initiation to Complexity Theory, The Turing Model: Basic Results, Introduction to the Class NP, Reducibilities, Complete Languages, Separation Results, Stochastic Choices, Quantum Complexity, Theory of Real Computation and Kolmogorov Complexity.

Author(s): Chee K. Yap

NA Pages

Exact Geometric Computation

Currently this section contains no detailed description for the page, will update this page soon.

Author(s): NA

NA Pages