Digital communications 1 : source and channel coding

Digital communications 1 source and channel coding

The communication chain is constituted by a source and a recipient, separated by a transmission channel which may represent a portion of cable, an optical fiber, a radio channel, or a satellite link. Whatever the channel, the processing blocks implemented in the communication chain have the same fou...

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Detalles Bibliográficos
Otros Autores: Le Ruyet, Didier, author (author), Pischella, Mylène, author (editor), Favennec, Pierre-Noël, editor
Formato: Libro electrónico
Idioma:Inglés
Publicado: London, England ; Hoboken, New Jersey : ISTE 2015.
Edición:1st edition
Colección:Networks and telecommunications series.
Materias:
Digital communications.
Coding theory.
Ver en Biblioteca Universitat Ramon Llull:https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009629835406719
Tabla de Contenidos:
  • ""Table of Contents""; ""Title""; ""Copyright""; ""Preface""; ""List of Acronyms""; ""Notations""; ""Introduction""; ""1: Introduction to Information Theory""; ""1.1. Introduction""; ""1.2. Review of probabilities""; ""1.3. Entropy and mutual information""; ""1.4. Lossless source coding theorems""; ""1.5. Theorem for lossy source coding""; ""1.6. Transmission channel models""; ""1.7. Capacity of a transmission channel""; ""1.8. Exercises""; ""2: Source Coding""; ""2.1. Introduction""; ""2.2. Algorithms for lossless source coding""; ""2.3. Sampling and quantization""
  • ""2.4. Coding techniques for analog sources with memory""""2.5. Application to the image and sound compression""; ""2.6. Exercises""; ""3: Linear Block Codes""; ""3.1. Introduction""; ""3.2. Finite fields""; ""3.3. Linear block codes""; ""3.4. Decoding of binary linear block codes""; ""3.5. Performances of linear block codes""; ""3.6. Cyclic codes""; ""3.7. Applications""; ""3.8. Exercises""; ""4: Convolutional Codes""; ""4.1. Introduction""; ""4.2. Mathematical representations and hardware structures""; ""4.3. Graphical representation of the convolutional codes""
  • ""4.4. Free distance and transfer function of convolutional codes""""4.5. Viterbi's algorithm for the decoding of convolutional codes""; ""4.6. Punctured convolutional codes""; ""4.7. Applications""; ""4.8. Exercises""; ""5: Concatenated Codes and Iterative Decoding""; ""5.1. Introduction""; ""5.2. Soft input soft output decoding""; ""5.3. LDPC codes""; ""5.4. Parallel concatenated convolutional codes or turbo codes""; ""5.5. Other classes of concatenated codes""; ""5.6. Exercises""; ""Appendices""; ""Appendix A: Proof of the Channel Capacity of the Additive White Gaussian Noise Channel""
  • ""Appendix B: Calculation of the Weight Enumerator Function IRWEF of a Systematic Recursive Convolutional Encoder""""Bibliography""; ""Index""; ""Summary of Volume 2: Digital Communications 2""; ""End User License Agreement""

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