Modern Cryptography Volume 1 : A Classical Introduction to Informational and Mathematical Principle.

By: Zheng, ZhiyongMaterial type: TextTextSeries: Financial Mathematics and Fintech SeriesPublisher: Singapore : Springer, 2022Copyright date: �2022Edition: 1st edDescription: 1 online resource (364 pages)Content type: text Media type: computer Carrier type: online resourceISBN: 9789811909207Genre/Form: Electronic books.Additional physical formats: Print version:: Modern Cryptography Volume 1LOC classification: HG176.7Online resources: Click to View
Contents:
Intro -- Preface -- Contents -- Acronyms -- 1 Preparatory Knowledge -- 1.1 Injective -- 1.2 Computational Complexity -- 1.3 Jensen Inequality -- 1.4 Stirling Formula -- 1.5 n-fold Bernoulli Experiment -- 1.6 Chebyshev Inequality -- 1.7 Stochastic Process -- References -- 2 The Basis of Code Theory -- 2.1 Hamming Distance -- 2.2 Linear Code -- 2.3 Lee Distance -- 2.4 Some Typical Codes -- 2.4.1 Hadamard Codes -- 2.4.2 Binary Golay Codes -- 2.4.3 3-Ary Golay Code -- 2.4.4 Reed-Muller Codes -- 2.5 Shannon Theorem -- References -- 3 Shannon Theory -- 3.1 Information Space -- 3.2 Joint Entropy, Conditional Entropy, Mutual Information -- 3.3 Redundancy -- 3.4 Markov Chain -- 3.5 Source Coding Theorem -- 3.6 Optimal Code Theory -- 3.7 Several Examples of Compression Coding -- 3.7.1 Morse Codes -- 3.7.2 Huffman Codes -- 3.7.3 Shannon-Fano Codes -- 3.8 Channel Coding Theorem -- References -- 4 Cryptosystem and Authentication System -- 4.1 Definition and Statistical Characteristics of Cryptosystem -- 4.2 Fully Confidential System -- 4.3 Ideal Security System -- 4.4 Message Authentication -- 4.5 Forgery Attack -- 4.6 Substitute Attack -- 4.7 Basic Algorithm -- 4.7.1 Affine Transformation -- 4.7.2 RSA -- 4.7.3 Discrete Logarithm -- 4.7.4 Knapsack Problem -- References -- 5 Prime Test -- 5.1 Fermat Test -- 5.2 Euler Test -- 5.3 Monte Carlo Method -- 5.4 Fermat Decomposition and Factor Basis Method -- 5.5 Continued Fraction Method -- References -- 6 Elliptic Curve -- 6.1 Basic Theory -- 6.2 Elliptic Curve Public Key Cryptosystem -- 6.3 Elliptic Curve Factorization -- References -- 7 Lattice-Based Cryptography -- 7.1 Geometry of Numbers -- 7.2 Basic Properties of Lattice -- 7.3 Integer Lattice and q-Ary Lattice -- 7.4 Reduced Basis -- 7.5 Approximation of SVP and CVP -- 7.6 GGH/HNF Cryptosystem -- 7.7 NTRU Cryptosystem -- 7.8 McEliece/Niederreiter Cryptosystem.
7.9 Ajtai/Dwork Cryptosystem -- References -- Appendix References.
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Intro -- Preface -- Contents -- Acronyms -- 1 Preparatory Knowledge -- 1.1 Injective -- 1.2 Computational Complexity -- 1.3 Jensen Inequality -- 1.4 Stirling Formula -- 1.5 n-fold Bernoulli Experiment -- 1.6 Chebyshev Inequality -- 1.7 Stochastic Process -- References -- 2 The Basis of Code Theory -- 2.1 Hamming Distance -- 2.2 Linear Code -- 2.3 Lee Distance -- 2.4 Some Typical Codes -- 2.4.1 Hadamard Codes -- 2.4.2 Binary Golay Codes -- 2.4.3 3-Ary Golay Code -- 2.4.4 Reed-Muller Codes -- 2.5 Shannon Theorem -- References -- 3 Shannon Theory -- 3.1 Information Space -- 3.2 Joint Entropy, Conditional Entropy, Mutual Information -- 3.3 Redundancy -- 3.4 Markov Chain -- 3.5 Source Coding Theorem -- 3.6 Optimal Code Theory -- 3.7 Several Examples of Compression Coding -- 3.7.1 Morse Codes -- 3.7.2 Huffman Codes -- 3.7.3 Shannon-Fano Codes -- 3.8 Channel Coding Theorem -- References -- 4 Cryptosystem and Authentication System -- 4.1 Definition and Statistical Characteristics of Cryptosystem -- 4.2 Fully Confidential System -- 4.3 Ideal Security System -- 4.4 Message Authentication -- 4.5 Forgery Attack -- 4.6 Substitute Attack -- 4.7 Basic Algorithm -- 4.7.1 Affine Transformation -- 4.7.2 RSA -- 4.7.3 Discrete Logarithm -- 4.7.4 Knapsack Problem -- References -- 5 Prime Test -- 5.1 Fermat Test -- 5.2 Euler Test -- 5.3 Monte Carlo Method -- 5.4 Fermat Decomposition and Factor Basis Method -- 5.5 Continued Fraction Method -- References -- 6 Elliptic Curve -- 6.1 Basic Theory -- 6.2 Elliptic Curve Public Key Cryptosystem -- 6.3 Elliptic Curve Factorization -- References -- 7 Lattice-Based Cryptography -- 7.1 Geometry of Numbers -- 7.2 Basic Properties of Lattice -- 7.3 Integer Lattice and q-Ary Lattice -- 7.4 Reduced Basis -- 7.5 Approximation of SVP and CVP -- 7.6 GGH/HNF Cryptosystem -- 7.7 NTRU Cryptosystem -- 7.8 McEliece/Niederreiter Cryptosystem.

7.9 Ajtai/Dwork Cryptosystem -- References -- Appendix References.

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Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2023. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.

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