Description

Book Synopsis
The aim of cryptography is to design primitives and protocols that withstand adversarial behavior. Information theoretic cryptography, how-so-ever desirable, is extremely restrictive and most non-trivial cryptographic tasks are known to be information theoretically impossible. In order to realize sophisticated cryptographic primitives, we forgo information theoretic security and assume limitations on what can be efficiently computed. In other words we attempt to build secure systems conditioned on some computational intractability assumption such as factoring, discrete log, decisional Diffie-Hellman, learning with errors, and many more.

In this work, based on the 2013 ACM Doctoral Dissertation Award-winning thesis, we put forth new plausible lattice-based constructions with properties that approximate the sought after multilinear maps. The multilinear analog of the decision Diffie-Hellman problem appears to be hard in our construction, and this allows for their use in cryptography. These constructions open doors to providing solutions to a number of important open problems.

Table of Contents
  • Introduction
  • Survey of Applications
  • Multilinear Maps and Graded Encoding Systems
  • Preliminaries I: Lattices
  • Preliminaries II: Algebraic Number Theory Background
  • The New Encoding Schemes
  • Security of Our Constructions
  • Preliminaries III: Computation in a Number Field
  • Survey of Lattice Cryptanalysis
  • One-Round Key Exchange
  • Generalizing Graded Encoding Systems
  • Bibliography
  • Author's Biography

Candidate Multilinear Maps

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    A Hardback by Sanjam Garg


      View other formats and editions of Candidate Multilinear Maps by Sanjam Garg

      Publisher: Morgan & Claypool Publishers
      Publication Date: 30/03/2015
      ISBN13: 9781627055499, 978-1627055499
      ISBN10: 1627055495
      Also in:
      Computer science Computer security Data encryption

      Description

      Book Synopsis
      The aim of cryptography is to design primitives and protocols that withstand adversarial behavior. Information theoretic cryptography, how-so-ever desirable, is extremely restrictive and most non-trivial cryptographic tasks are known to be information theoretically impossible. In order to realize sophisticated cryptographic primitives, we forgo information theoretic security and assume limitations on what can be efficiently computed. In other words we attempt to build secure systems conditioned on some computational intractability assumption such as factoring, discrete log, decisional Diffie-Hellman, learning with errors, and many more.

      In this work, based on the 2013 ACM Doctoral Dissertation Award-winning thesis, we put forth new plausible lattice-based constructions with properties that approximate the sought after multilinear maps. The multilinear analog of the decision Diffie-Hellman problem appears to be hard in our construction, and this allows for their use in cryptography. These constructions open doors to providing solutions to a number of important open problems.

      Table of Contents
      • Introduction
      • Survey of Applications
      • Multilinear Maps and Graded Encoding Systems
      • Preliminaries I: Lattices
      • Preliminaries II: Algebraic Number Theory Background
      • The New Encoding Schemes
      • Security of Our Constructions
      • Preliminaries III: Computation in a Number Field
      • Survey of Lattice Cryptanalysis
      • One-Round Key Exchange
      • Generalizing Graded Encoding Systems
      • Bibliography
      • Author's Biography

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