Verfügbarkeit: Introduction to OFDM receiver design and simulation /

Introduction to OFDM receiver design and simulation /:

Providing a fundamental understanding of the receiver design applying OFDM technology, this book is an accessible introduction to Orthogonal frequency-division multiplexing (OFDM) receiver design, a technology that allows digitized data to be carried by multiple carriers. --

Gespeichert in:

Bibliographische Detailangaben
1. Verfasser:	Liu, Y. J. (VerfasserIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Norwood, MA : Artech House, [2020]
Schriftenreihe:	Artech House mobile communications series.
Schlagworte:	Orthogonal frequency division multiplexing. IEEE 802.11 (Standard) Multiplexage par répartition orthogonale de la fréquence. IEEE 802.11 (Norme) Orthogonal frequency division multiplexing
Online-Zugang:	Volltext
Zusammenfassung:	Providing a fundamental understanding of the receiver design applying OFDM technology, this book is an accessible introduction to Orthogonal frequency-division multiplexing (OFDM) receiver design, a technology that allows digitized data to be carried by multiple carriers. --
Beschreibung:	1 online resource : illustrations
Bibliographie:	Includes bibliographical references and index
ISBN:	9781630817398 1630817392

Internformat

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505	0		\|a Intro -- Introduction to OFDM Receiver Designand Simulation -- Contents -- 1 Discrete Time Signals and Discrete Fourier Transform -- 1.1 Introduction -- 1.2 Discrete Time Signals -- 1.3 Fourier Series Representation -- 1.4 DFT -- 1.5 Sampling Theorem and Signal Interpolation -- 1.6 Properties of the DFT -- 1.7 Time and Frequency Relationship of the DFT -- 1.8 Operations of the DFT -- 1.8.1 Linearity -- 1.8.2 Time Shift -- 1.8.3 Frequency Shift -- 1.8.4 Circular Convolution -- 1.9 Z-Transform -- 1.10 Summary -- References -- 2 Single-Carrier Modulation -- 2.1 Introduction
505	8		\|a 2.2 Data Transmission Rate -- 2.3 Bandpass Signals -- 2.4 Digitally Modulated Signals -- 2.4.1 PAM -- 2.4.2 PSK -- 2.4.3 QAM -- 2.4.4 FSK -- 2.5 Pulse Shaping -- 2.6 Summary -- References -- 3 Multicarrier Modulation -- 3.1 Introduction -- 3.2 OFDM Waveform -- 3.3 OFDM Characteristics -- 3.3.1 Orthogonality -- 3.3.2 OFDM Spectrum -- 3.3.3 PAPR -- 3.3.4 Cyclic Prefix -- 3.3.5 FFT -- 3.4 Time and Frequency Parameters -- 3.5 Window Function -- 3.6 Digital Modulation -- 3.7 OFDM Waveform Properties -- 3.8 Summary -- References -- 4 OFDM Transmission -- 4.1 Introduction
505	8		\|a 4.2 OFDM Transmitter Architecture -- 4.3 Signal Transmission Format -- 4.4 Preamble Signal for IEEE 802.11a -- 4.4.1 Short Sequence -- 4.4.2 Long Sequence -- 4.5 IEEE 802.11a Header Format -- 4.6 IEEE 802.11a Data Format -- 4.7 OFDM Receiver Architecture -- 4.8 Summary -- Reference -- 5 Shift Register Sequence and Data Scrambler -- 5.1 Introduction -- 5.2 Binary Field -- 5.3 Galois Field -- 5.4 Sequence Generator -- 5.5 Period of Sequence Generator -- 5.6 Maximum-Length Sequences -- 5.6.1 Properties of the Maximum-Length Sequence -- 5.6.2 Sequence Generator from the IEEE 802.11a
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505	8		\|a References-7 Error-Correcting Codes and Interleaver-7.1 Introduction-7.2 Linear Block Codes-7.2.1 Generator Matrix-7.2.2 Parity Check Matrix-7.2.3 Syndrome-7.2.4 Error Correction-7.2.5 Hamming Codes-7.3 Cyclic Codes-7.3.1 Generator Polynomial-7.3.2 Syndrome Polynomial-7.4 Convolutional Code-7.4.1 Convolutional Encoder-7.4.2 Convolutional Decoder and Viterbi Algorithm-7.4.3 Convolutional Code in the IEEE 802.11a-7.4.4 Punctured Convolutional Codes-7.5 Interleaver-7.5.1 Illustration of an Interleaver-7.5.2 Interleaver Used in the IEEE 802.11a
505	8		\|a 7.5.3 Deinterleaver Used in the IEEE 802.11a
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contents	Intro -- Introduction to OFDM Receiver Designand Simulation -- Contents -- 1 Discrete Time Signals and Discrete Fourier Transform -- 1.1 Introduction -- 1.2 Discrete Time Signals -- 1.3 Fourier Series Representation -- 1.4 DFT -- 1.5 Sampling Theorem and Signal Interpolation -- 1.6 Properties of the DFT -- 1.7 Time and Frequency Relationship of the DFT -- 1.8 Operations of the DFT -- 1.8.1 Linearity -- 1.8.2 Time Shift -- 1.8.3 Frequency Shift -- 1.8.4 Circular Convolution -- 1.9 Z-Transform -- 1.10 Summary -- References -- 2 Single-Carrier Modulation -- 2.1 Introduction 2.2 Data Transmission Rate -- 2.3 Bandpass Signals -- 2.4 Digitally Modulated Signals -- 2.4.1 PAM -- 2.4.2 PSK -- 2.4.3 QAM -- 2.4.4 FSK -- 2.5 Pulse Shaping -- 2.6 Summary -- References -- 3 Multicarrier Modulation -- 3.1 Introduction -- 3.2 OFDM Waveform -- 3.3 OFDM Characteristics -- 3.3.1 Orthogonality -- 3.3.2 OFDM Spectrum -- 3.3.3 PAPR -- 3.3.4 Cyclic Prefix -- 3.3.5 FFT -- 3.4 Time and Frequency Parameters -- 3.5 Window Function -- 3.6 Digital Modulation -- 3.7 OFDM Waveform Properties -- 3.8 Summary -- References -- 4 OFDM Transmission -- 4.1 Introduction 4.2 OFDM Transmitter Architecture -- 4.3 Signal Transmission Format -- 4.4 Preamble Signal for IEEE 802.11a -- 4.4.1 Short Sequence -- 4.4.2 Long Sequence -- 4.5 IEEE 802.11a Header Format -- 4.6 IEEE 802.11a Data Format -- 4.7 OFDM Receiver Architecture -- 4.8 Summary -- Reference -- 5 Shift Register Sequence and Data Scrambler -- 5.1 Introduction -- 5.2 Binary Field -- 5.3 Galois Field -- 5.4 Sequence Generator -- 5.5 Period of Sequence Generator -- 5.6 Maximum-Length Sequences -- 5.6.1 Properties of the Maximum-Length Sequence -- 5.6.2 Sequence Generator from the IEEE 802.11a 5.7 Data Scrambler -- 5.8 Summary -- References -- 6 Radio-Wave Propagation Model -- 6.1 Introduction -- 6.2 Large-Scale Propagation Model -- 6.2.1 Free-Space Propagation Loss -- 6.2.2 Two-Ray Model -- 6.2.3 Empirical Model -- 6.3 Small-Scale Propagation Model -- 6.3.1 Time Dispersion -- 6.3.2 Frequency Dispersion -- 6.3.3 Clark's Fading Model -- 6.4 Receiver Signal-to-Noise Ratio (SNR) -- 6.4.1 Thermal Noise -- 6.4.2 Noise Factor -- 6.4.3 Amplifier Model -- 6.4.4 Cable Loss Model -- 6.4.5 Equivalent Noise Temperature at Receiver Front End -- 6.5 Range Determination -- 6.6 SNR -- 6.7 Summary References-7 Error-Correcting Codes and Interleaver-7.1 Introduction-7.2 Linear Block Codes-7.2.1 Generator Matrix-7.2.2 Parity Check Matrix-7.2.3 Syndrome-7.2.4 Error Correction-7.2.5 Hamming Codes-7.3 Cyclic Codes-7.3.1 Generator Polynomial-7.3.2 Syndrome Polynomial-7.4 Convolutional Code-7.4.1 Convolutional Encoder-7.4.2 Convolutional Decoder and Viterbi Algorithm-7.4.3 Convolutional Code in the IEEE 802.11a-7.4.4 Punctured Convolutional Codes-7.5 Interleaver-7.5.1 Illustration of an Interleaver-7.5.2 Interleaver Used in the IEEE 802.11a 7.5.3 Deinterleaver Used in the IEEE 802.11a
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series	Artech House mobile communications series.
series2	Mobile communications series
spelling	Liu, Y. J., author. Introduction to OFDM receiver design and simulation / Y.J. Liu Norwood, MA : Artech House, [2020] 1 online resource : illustrations text txt rdacontent computer c rdamedia online resource cr rdacarrier Mobile communications series Online resource; title from digital title page (viewed on February 19, 2020) Includes bibliographical references and index Intro -- Introduction to OFDM Receiver Designand Simulation -- Contents -- 1 Discrete Time Signals and Discrete Fourier Transform -- 1.1 Introduction -- 1.2 Discrete Time Signals -- 1.3 Fourier Series Representation -- 1.4 DFT -- 1.5 Sampling Theorem and Signal Interpolation -- 1.6 Properties of the DFT -- 1.7 Time and Frequency Relationship of the DFT -- 1.8 Operations of the DFT -- 1.8.1 Linearity -- 1.8.2 Time Shift -- 1.8.3 Frequency Shift -- 1.8.4 Circular Convolution -- 1.9 Z-Transform -- 1.10 Summary -- References -- 2 Single-Carrier Modulation -- 2.1 Introduction 2.2 Data Transmission Rate -- 2.3 Bandpass Signals -- 2.4 Digitally Modulated Signals -- 2.4.1 PAM -- 2.4.2 PSK -- 2.4.3 QAM -- 2.4.4 FSK -- 2.5 Pulse Shaping -- 2.6 Summary -- References -- 3 Multicarrier Modulation -- 3.1 Introduction -- 3.2 OFDM Waveform -- 3.3 OFDM Characteristics -- 3.3.1 Orthogonality -- 3.3.2 OFDM Spectrum -- 3.3.3 PAPR -- 3.3.4 Cyclic Prefix -- 3.3.5 FFT -- 3.4 Time and Frequency Parameters -- 3.5 Window Function -- 3.6 Digital Modulation -- 3.7 OFDM Waveform Properties -- 3.8 Summary -- References -- 4 OFDM Transmission -- 4.1 Introduction 4.2 OFDM Transmitter Architecture -- 4.3 Signal Transmission Format -- 4.4 Preamble Signal for IEEE 802.11a -- 4.4.1 Short Sequence -- 4.4.2 Long Sequence -- 4.5 IEEE 802.11a Header Format -- 4.6 IEEE 802.11a Data Format -- 4.7 OFDM Receiver Architecture -- 4.8 Summary -- Reference -- 5 Shift Register Sequence and Data Scrambler -- 5.1 Introduction -- 5.2 Binary Field -- 5.3 Galois Field -- 5.4 Sequence Generator -- 5.5 Period of Sequence Generator -- 5.6 Maximum-Length Sequences -- 5.6.1 Properties of the Maximum-Length Sequence -- 5.6.2 Sequence Generator from the IEEE 802.11a 5.7 Data Scrambler -- 5.8 Summary -- References -- 6 Radio-Wave Propagation Model -- 6.1 Introduction -- 6.2 Large-Scale Propagation Model -- 6.2.1 Free-Space Propagation Loss -- 6.2.2 Two-Ray Model -- 6.2.3 Empirical Model -- 6.3 Small-Scale Propagation Model -- 6.3.1 Time Dispersion -- 6.3.2 Frequency Dispersion -- 6.3.3 Clark's Fading Model -- 6.4 Receiver Signal-to-Noise Ratio (SNR) -- 6.4.1 Thermal Noise -- 6.4.2 Noise Factor -- 6.4.3 Amplifier Model -- 6.4.4 Cable Loss Model -- 6.4.5 Equivalent Noise Temperature at Receiver Front End -- 6.5 Range Determination -- 6.6 SNR -- 6.7 Summary References-7 Error-Correcting Codes and Interleaver-7.1 Introduction-7.2 Linear Block Codes-7.2.1 Generator Matrix-7.2.2 Parity Check Matrix-7.2.3 Syndrome-7.2.4 Error Correction-7.2.5 Hamming Codes-7.3 Cyclic Codes-7.3.1 Generator Polynomial-7.3.2 Syndrome Polynomial-7.4 Convolutional Code-7.4.1 Convolutional Encoder-7.4.2 Convolutional Decoder and Viterbi Algorithm-7.4.3 Convolutional Code in the IEEE 802.11a-7.4.4 Punctured Convolutional Codes-7.5 Interleaver-7.5.1 Illustration of an Interleaver-7.5.2 Interleaver Used in the IEEE 802.11a 7.5.3 Deinterleaver Used in the IEEE 802.11a Providing a fundamental understanding of the receiver design applying OFDM technology, this book is an accessible introduction to Orthogonal frequency-division multiplexing (OFDM) receiver design, a technology that allows digitized data to be carried by multiple carriers. -- Edited summary from book. Orthogonal frequency division multiplexing. http://id.loc.gov/authorities/subjects/sh2005002695 IEEE 802.11 (Standard) http://id.loc.gov/authorities/subjects/sh2003001289 Multiplexage par répartition orthogonale de la fréquence. IEEE 802.11 (Norme) IEEE 802.11 (Standard) fast Orthogonal frequency division multiplexing fast has work: Introduction to OFDM receiver design and simulation (Text) https://id.oclc.org/worldcat/entity/E39PCFyf3TK67cwKCTGgFJr7wP https://id.oclc.org/worldcat/ontology/hasWork Print version: 1630817384 9781630817381 (OCoLC)1112380171 Artech House mobile communications series. http://id.loc.gov/authorities/names/n2001009850 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=2321916 Volltext
spellingShingle	Liu, Y. J. Introduction to OFDM receiver design and simulation / Artech House mobile communications series. Intro -- Introduction to OFDM Receiver Designand Simulation -- Contents -- 1 Discrete Time Signals and Discrete Fourier Transform -- 1.1 Introduction -- 1.2 Discrete Time Signals -- 1.3 Fourier Series Representation -- 1.4 DFT -- 1.5 Sampling Theorem and Signal Interpolation -- 1.6 Properties of the DFT -- 1.7 Time and Frequency Relationship of the DFT -- 1.8 Operations of the DFT -- 1.8.1 Linearity -- 1.8.2 Time Shift -- 1.8.3 Frequency Shift -- 1.8.4 Circular Convolution -- 1.9 Z-Transform -- 1.10 Summary -- References -- 2 Single-Carrier Modulation -- 2.1 Introduction 2.2 Data Transmission Rate -- 2.3 Bandpass Signals -- 2.4 Digitally Modulated Signals -- 2.4.1 PAM -- 2.4.2 PSK -- 2.4.3 QAM -- 2.4.4 FSK -- 2.5 Pulse Shaping -- 2.6 Summary -- References -- 3 Multicarrier Modulation -- 3.1 Introduction -- 3.2 OFDM Waveform -- 3.3 OFDM Characteristics -- 3.3.1 Orthogonality -- 3.3.2 OFDM Spectrum -- 3.3.3 PAPR -- 3.3.4 Cyclic Prefix -- 3.3.5 FFT -- 3.4 Time and Frequency Parameters -- 3.5 Window Function -- 3.6 Digital Modulation -- 3.7 OFDM Waveform Properties -- 3.8 Summary -- References -- 4 OFDM Transmission -- 4.1 Introduction 4.2 OFDM Transmitter Architecture -- 4.3 Signal Transmission Format -- 4.4 Preamble Signal for IEEE 802.11a -- 4.4.1 Short Sequence -- 4.4.2 Long Sequence -- 4.5 IEEE 802.11a Header Format -- 4.6 IEEE 802.11a Data Format -- 4.7 OFDM Receiver Architecture -- 4.8 Summary -- Reference -- 5 Shift Register Sequence and Data Scrambler -- 5.1 Introduction -- 5.2 Binary Field -- 5.3 Galois Field -- 5.4 Sequence Generator -- 5.5 Period of Sequence Generator -- 5.6 Maximum-Length Sequences -- 5.6.1 Properties of the Maximum-Length Sequence -- 5.6.2 Sequence Generator from the IEEE 802.11a 5.7 Data Scrambler -- 5.8 Summary -- References -- 6 Radio-Wave Propagation Model -- 6.1 Introduction -- 6.2 Large-Scale Propagation Model -- 6.2.1 Free-Space Propagation Loss -- 6.2.2 Two-Ray Model -- 6.2.3 Empirical Model -- 6.3 Small-Scale Propagation Model -- 6.3.1 Time Dispersion -- 6.3.2 Frequency Dispersion -- 6.3.3 Clark's Fading Model -- 6.4 Receiver Signal-to-Noise Ratio (SNR) -- 6.4.1 Thermal Noise -- 6.4.2 Noise Factor -- 6.4.3 Amplifier Model -- 6.4.4 Cable Loss Model -- 6.4.5 Equivalent Noise Temperature at Receiver Front End -- 6.5 Range Determination -- 6.6 SNR -- 6.7 Summary References-7 Error-Correcting Codes and Interleaver-7.1 Introduction-7.2 Linear Block Codes-7.2.1 Generator Matrix-7.2.2 Parity Check Matrix-7.2.3 Syndrome-7.2.4 Error Correction-7.2.5 Hamming Codes-7.3 Cyclic Codes-7.3.1 Generator Polynomial-7.3.2 Syndrome Polynomial-7.4 Convolutional Code-7.4.1 Convolutional Encoder-7.4.2 Convolutional Decoder and Viterbi Algorithm-7.4.3 Convolutional Code in the IEEE 802.11a-7.4.4 Punctured Convolutional Codes-7.5 Interleaver-7.5.1 Illustration of an Interleaver-7.5.2 Interleaver Used in the IEEE 802.11a 7.5.3 Deinterleaver Used in the IEEE 802.11a Orthogonal frequency division multiplexing. http://id.loc.gov/authorities/subjects/sh2005002695 IEEE 802.11 (Standard) http://id.loc.gov/authorities/subjects/sh2003001289 Multiplexage par répartition orthogonale de la fréquence. IEEE 802.11 (Norme) IEEE 802.11 (Standard) fast Orthogonal frequency division multiplexing fast
subject_GND	http://id.loc.gov/authorities/subjects/sh2005002695 http://id.loc.gov/authorities/subjects/sh2003001289
title	Introduction to OFDM receiver design and simulation /
title_auth	Introduction to OFDM receiver design and simulation /
title_exact_search	Introduction to OFDM receiver design and simulation /
title_full	Introduction to OFDM receiver design and simulation / Y.J. Liu
title_fullStr	Introduction to OFDM receiver design and simulation / Y.J. Liu
title_full_unstemmed	Introduction to OFDM receiver design and simulation / Y.J. Liu
title_short	Introduction to OFDM receiver design and simulation /
title_sort	introduction to ofdm receiver design and simulation
topic	Orthogonal frequency division multiplexing. http://id.loc.gov/authorities/subjects/sh2005002695 IEEE 802.11 (Standard) http://id.loc.gov/authorities/subjects/sh2003001289 Multiplexage par répartition orthogonale de la fréquence. IEEE 802.11 (Norme) IEEE 802.11 (Standard) fast Orthogonal frequency division multiplexing fast
topic_facet	Orthogonal frequency division multiplexing. IEEE 802.11 (Standard) Multiplexage par répartition orthogonale de la fréquence. IEEE 802.11 (Norme) Orthogonal frequency division multiplexing
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=2321916
work_keys_str_mv	AT liuyj introductiontoofdmreceiverdesignandsimulation

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