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Bent functions : results and applications to cryptography /

Bent Functions: Results and Applications to Cryptography offers a unique survey of the objects of discrete mathematics known as Boolean bent functions. As these maximal, nonlinear Boolean functions and their generalizations have many theoretical and practical applications in combinatorics, coding th...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Tokareva, Natalia (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: London : Academic Press, [2015]
Temas:
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover
  • Bent Functions: Results and Applications to Cryptography
  • Copyright
  • Contents
  • Foreword
  • Preface
  • Notation
  • Chapter 1: Boolean Functions
  • Introduction
  • 1.1 Definitions
  • 1.2 Algebraic Normal Form
  • 1.3 Boolean Cube and Hamming Distance
  • 1.4 Extended Affinely Equivalent Functions
  • 1.5 Walsh-Hadamard Transform
  • 1.6 Finite Field and Boolean Functions
  • 1.7 Trace Function
  • 1.8 Polynomial Representation of a Boolean Function
  • 1.9 Trace Representation of a Boolean Function
  • 1.10 Monomial Boolean Functions
  • Chapter 2: Bent Functions: An IntroductionIntroduction
  • 2.1 Definition of a Nonlinearity
  • 2.2 Nonlinearity of a Random Boolean Function
  • 2.3 Definition of a Bent Function
  • 2.4 If n Is Odd?
  • 2.5 Open Problems
  • 2.6 Surveys
  • Chapter 3: History of Bent Functions
  • Introduction
  • 3.1 Oscar Rothaus
  • 3.2 V.A. Eliseev and O.P. Stepchenkov
  • 3.3 From the 1970s to the Present
  • Chapter 4: Applications of Bent Functions
  • Introduction
  • 4.1 Cryptography: Linear Cryptanalysis and Boolean Functions
  • 4.2 Cryptography: One Historical Example
  • 4.3 Cryptography: Bent Functions in CAST4.4 Cryptography: Bent Functions in Grain
  • 4.5 Cryptography: Bent Functions in HAVAL
  • 4.6 Hadamard Matrices and Graphs
  • 4.7 Links to Coding Theory
  • 4.8 Bent Sequences
  • 4.9 Mobile Networks, CDMA
  • 4.10 Remarks
  • Chapter 5: Properties of Bent Functions
  • Introduction
  • 5.1 Degree of a Bent Function
  • 5.2 Affine Transformations of Bent Functions
  • 5.3 Rank of a Bent Function
  • 5.4 Dual Bent Functions
  • 5.5 Other Properties
  • Chapter 6: Equivalent Representations of Bent Functions
  • Introduction
  • 6.1 Hadamard Matrices6.2 Difference Sets
  • 6.3 Designs
  • 6.4 Linear Spreads
  • 6.5 Sets of Subspaces
  • 6.6 Strongly Regular Graphs
  • 6.7 Bent Rectangles
  • Chapter 7: Bent Functions with a Small Number of Variables
  • Introduction
  • 7.1 Two and Four Variables
  • 7.2 Six Variables
  • 7.3 Eight Variables
  • 7.4 Ten and More Variables
  • 7.5 Algorithms for Generation of Bent Functions
  • 7.6 Concluding Remarks
  • Chapter 8: Combinatorial Constructions of Bent Functions
  • Introduction
  • 8.1 Rothaus's Iterative Construction
  • 8.2 Maiorana-McFarland Class8.3 Partial Spreads: PS+, PS-
  • 8.4 Dillon's Bent Functions: PSap
  • 8.5 Dobbertin's Construction
  • 8.6 More Iterative Constructions
  • 8.7 Minterm Iterative Constructions
  • 8.8 Bent Iterative Functions: BI
  • 8.9 Other Constructions
  • Chapter 9: Algebraic Constructions of Bent Functions
  • Introduction
  • 9.1 An Algebraic Approach
  • 9.2 Bent Exponents: General Properties
  • 9.3 Gold Bent Functions
  • 9.4 Dillon Exponent
  • 9.5 Kasami Bent Functions
  • 9.6 Canteaut-Leander Bent Functions (MF-1)