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Coding Theory. p2. Why encode data? Three reasons to encode data that is about to be transmitted(through space) or stored(in a computer): 1. For efficiency.

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Presentation on theme: "Coding Theory. p2. Why encode data? Three reasons to encode data that is about to be transmitted(through space) or stored(in a computer): 1. For efficiency."— Presentation transcript:

1 Coding Theory

2 p2. Why encode data? Three reasons to encode data that is about to be transmitted(through space) or stored(in a computer): 1. For efficiency (Information Theory) 2. For error detection/correction (Coding Theory) 3. For secrecy/authentication (Cryptography) (use “ encrypt data ” instead of “ encode data ” )

3 p3. Why coding theory? For example, to send CODES(source message) 1. Encoding for efficiency(after Huffman encoding) 00000/1001/10100/010/0011 000/001/001/101/000/100/011(source strings) 2. Encoding for correction C: binary [5,3]-code with generator matrix G G = 1 1 1 1 1 1 0 1 0 1 0 0 1 1 0

4 p4. Why coding theory? Example: encode string s = 111 to codeword c = sG = 01100 As a result we encode 000/001/001/101/000/100/011(source strings) as 00000/00110/00110/11001/00000/11111/10011(codewords) If c ’ = 01100 is received(with no error) sG = c ’ => solve linear system => s = 111

5 p5. Why coding theory? If the received word c ’ =c+e contains error e then we wish it will be detected(then we can do retransmission) or even better corrected as c. Goal: Design a good code C

6 p6. Why coding theory? Read “ Coding theory: the first 50 years ” -- by Richard Pinch ( http://plus.maths.org/issue3/codes/)

7 p7. Texts 1. Coding Theory & Cryptography The Essentials 2nd Edition, Revsed and Expanded Marcel Dekker, Inc. by Hankerson, Hoffman, Leonard, Lindner Phelps, Rodger, Wall

8 p8. Texts 2. Coding Theory A First Course Cambridge University Press 2004 by San Ling and Chaoping Xing

9 p9. 1.Coding Theory & Cryptography the Essentials by H 2 L 2 PRW Part I: Coding Theory 1. Intro to Coding Theory 2. Linear Codes 3. Perfect and Related Codes 4. Cyclic Linear Codes 5. BCH Codes 6. Reed-Solomon Codes 7. Burst Error-Correcting Codes 8. Convolutional Codes 9. Reed-Muller and Preparata Codes

10 p10. Part II: Cryptography(not included in the course) 10. Classical Cryptography 10.1 Encryption schemes 10.2 Symmetric-key encryption 10.3 Feistel ciphers and DES 11. Topics in Algebra and Number Theory 11.1 Algorithms, complexity, and modular arithmetic 11.2 Quadratic residues 11.3 Primality testing 11.4 Factoring and square roots 11.5 Discrete logarithms 12. Public-key Cryptography 12.1 One-way and hash functions 12.2 RSA 12.3 Provable security 12.4 ElGamal 12.5 Cryptography protocols

11 p11. 2.Coding Theory – A First Course by Ling & Xing 1. Introduction 2. Error detection, correction and decoding 3. Finite fields 4. Linear codes 5. Bounds in coding theory 6. Constructions of linear codes 7. Cyclic codes 8. Some special cyclic codes 9. Goppa Codes

12 p12. Math involved in Coding theory Probability Combinatorics Linear Algebra Finite Field

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