Wireless communications: principles and practice / (Record no. 2230)
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000 -LEADER | |
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fixed length control field | 14726mam a2200193 a 4500 |
020 ## - INTERNATIONAL STANDARD BOOK NUMBER | |
International Standard Book Number | 9788131731864 (pb) |
040 ## - CATALOGING SOURCE | |
Transcribing agency | CUS |
082 ## - DEWEY DECIMAL CLASSIFICATION NUMBER | |
Classification number | 004.6 |
Item number | RAP/W |
100 1# - MAIN ENTRY--PERSONAL NAME | |
Personal name | Rappaport, Theodore S., |
245 10 - TITLE STATEMENT | |
Title | Wireless communications: principles and practice / |
Statement of responsibility, etc. | Theodore S. Rappaport. |
250 ## - EDITION STATEMENT | |
Edition statement | 2nd ed. |
260 ## - PUBLICATION, DISTRIBUTION, ETC. (IMPRINT) | |
Place of publication, distribution, etc. | New Delhi : |
Name of publisher, distributor, etc. | Pearson , |
Date of publication, distribution, etc. | 2010. |
300 ## - PHYSICAL DESCRIPTION | |
Extent | xvii, 709 p. : |
Other physical details | ill.; |
Dimensions | 25 cm. |
505 ## - FORMATTED CONTENTS NOTE | |
Formatted contents note | Introduction to Wireless Communication Systems<br/>1.1 Evolution of Mobile Radio Communications<br/>1.2 Mobile Radiotelephony in the U.S.<br/>1.3 Mobile Radio Systems Around the World<br/>1.4 Examples of Wireless Communication Systems<br/>1.4.1 Paging Systems<br/>1.4.2 Cordless Telephone Systems<br/>1.4.3 Cellular Telephone Systems<br/>1.4.3.1 -How a Cellular Telephone Call is Made<br/>1.4.4 Comparison of Conunon Wireless Communication Systems<br/>1.5 Trends in Cellular Radio and Personal Communications<br/>1.6 Problems<br/>Modem Wireless Communication Systems<br/>2.1 Second Generation (20) Cellular Networks<br/>2.1.1 Evolution to 2.5G Mobile Radio Networks<br/>2.1.2 Evolution for 2.5G TDMA Standards<br/>2.1.2.1 HSCSD for 2.5G GSM<br/>2.1.2.2 GPRS for 2.5G GSM and IS-136<br/>2.1.2.3 EDGE for 2.5G GSM and IS-136<br/>2.1.3 IS-95B for 2.5G CDMA<br/>2.2 Third Generation (3G) Wireless Networks<br/>2.2.1 3G W-CDMA (UMTS)<br/>2.2.2 3G cdma2000<br/>2.2.3 3G TD-SCDMA<br/>2.3 Wireless Local Loop (WLL) and LMDS<br/>2.4 Wireless Local Area Networks (WLANs)<br/>2.5 Bluetooth and Personal Area Networks (PANs)<br/>2.6 Summary<br/>2.7 Problems<br/>3 The Cellular Concept—System Design Fundamentals<br/>3.1 Introduction<br/>3.2 Frequency Reuse<br/>3.3 Channel Assignment Strategies<br/>3.4 Handoff Strategies<br/>3.4.1 Prioritizing Handoffs<br/>3.4.2 Practical Handoff Considerations<br/>3.5 Interference and System Capacity<br/>3.5.1 Co-channel Interference and System Capacity<br/>3.5.2 Channel Planning for Wireless Systems<br/>3.5.3 Adjacent Channel Interference<br/>3.5.4 Power Control for Reducing Interference<br/>3.6 Trunking and Grade of Service<br/>3.7 Improving Coverage and Capacity in Cellular Systems<br/>3.7.1 Cell Splitting<br/>3.7.2 Sectoring<br/>3.7.3 Repeaters for Range Extension<br/>3.7.4 A Microcell Zone Concept<br/>3.8 Summary<br/>3.9 Problems<br/>4 Mobile Radio Propagation: Large-Scale Path Loss<br/>4.1 Introduction to Radio Wave Propagation<br/>4.2 Free Space Propagation Model<br/>4.3 Relating Power to Electric Field<br/>4.4 The Three Basic Propagation Mechanisms<br/>4.5 Reflection<br/>4.5.1 Reflection from Dielectrics<br/>4.5.2 Brewster Angle<br/>4.5.3 Reflection from Perfect Conductors<br/>4.6 Ground Reflection (Two-Ray) Model<br/>4.7 Diffraction<br/>4.7.1 Fresnel Zone Geometry<br/>4.7.2 Knife-edge Diffraction Model<br/>4.7.3 Multiple Knife-edge Diffraction<br/>4.8 Scattering<br/>4.8.1 Radar Cross Section Model<br/>4.9 Practical Link Budget Design Using Path Loss Models<br/>4.9.1 Log-distance Path Loss Model<br/>4.9.2 Log-normal Shadowing<br/>4.9.3 Determination of Percentage of Coverage Area<br/>4.10 Outdoor Propagation Models<br/>4.10.1 Longley-Rice Model<br/>4.10.2 Durkin's Model—A Case Study<br/>4.10.3 Okumura Model<br/>4.10.4 Hata Model<br/>4.10.5- PCS Extension to Hata Model<br/>4.10.6 Walfisch and Bertoni Model<br/>4.10.7 Wideband PCS Microcell Model<br/>4.11 Indoor Propagation Models<br/>4.11.1 Partition Losses (same floor)<br/>4.11.2 Partition Losses between Floors<br/>4.11.3 Log-distance Path Loss Model<br/>4.11.4 Ericsson Multiple Breakpoint Model<br/>4.11.5 Attenuation Factor Model<br/>4.12 Signal Penetration into Buildings<br/>4.13 Ray Tracing and Site Specific Modeling<br/>4.14 Problems<br/>Mobile Radio Propagation: Small-Scale Fading and Multipath<br/>5.1 Small-Scale Multipath Propagation<br/>5.1.1 Factors Influencing Small-Scale Fading<br/>5.1.2 Doppler Shift<br/>5.2 Impulse Response Model of a Multipath Channel<br/>5.2.1 Relationship Between Bandwidth and Received Power<br/>5.3 Small-Scale Multipath Measurements<br/>5.3.1 Direct RF Pulse System<br/>5.3.2 Spread Spectrum Sliding Correlator Channel Sounding<br/>5.3.3 Frequency Domain Channel Sounding<br/>5.4 Parameters of Mobile Multipath Channels<br/>5.4.1 Time Dispersion Parameters<br/>5.4.2 Coherence Bandwidth<br/>5.4.3 Doppler Spread and Coherence Time<br/>5.5 Types of Small-Scale Fading<br/>5.5.1 Fading Effects Due to Multipath Time Delay Spread<br/>5.5.1.1 Flat fading<br/>5.5.1.2 Frequency Selective Fading<br/>5.5.2 Fading Effects Due to Doppler Spread<br/>5.5.2.1 Fast Fading<br/>5.5.2.2 Slow Fading<br/>5.6 Rayleigh and Ricean Distributions<br/>5.6.1 Rayleigh Fading Distribution<br/>5.6.2 Ricean Fading Distribution<br/>5.7 Statistical Models for Multipath Fading Channels<br/>5.7.1 Clarke's Model for Flat Fading<br/>c n o ^ Spectral Shape Due to Doppler Spread in Clarke's Model<br/>1.1 Simulation of Clarke and Cans Fading Model<br/>5.7.3 Level Crossing and Fading Statistics<br/>5.7.4 Two-ray Rayleigh Fading Model<br/>5.7.5 Saleh and Valenzuela Indoor Statistical Model<br/>. o SMRCIM Indoor and Outdoor Statistical Models<br/>' 5 Shape Factors for Small-Scale Fading Wireless Channels<br/>J.O.I Introduction to Shape Factors<br/>5.8.1.1 Multipath Shape Factors<br/>Angular Spread, A<br/>Angular Constriction, y<br/>Azimuthal Direction of Maximum Fading, 0^^^<br/>5.8.1.2 Fading Rate Variance Relationships<br/>Complex Received Voltage, V(r)<br/>Received Power, P(r)<br/>Received Envelope, Jt(r)<br/>5.8.1.3 Comparison to Omnidirectional Propagation<br/>5.8.2 Examples of Fading Behavior<br/>5.8.2.1 Sector Channel Model<br/>5.8.2.2 Double Sector Channel Model<br/>5.8.2.3 Ricean Channel Model<br/>5.8.3 Second-Order Statistics Using Shape Factors [DurOO]<br/>^ g ^ Rates and Average Fade Duration<br/>5.8.3.2 Spatial Autocovariance<br/>5.8.3.3 Coherence Distance<br/>^ o f Shape Factors to Wideband Channels<br/>5.9 Summ^^'''^'"^ ^^^P® P^^to^s<br/>5.10 Problems<br/>Modulation Techniques for Mobile Radio<br/>6.1 Frequency Modulation vs. Amplitude Modulation<br/>6.2 Amplitude Modulation<br/>6.2.1 Single Sideband AM<br/>6.2.2 Pilot Tone SSB<br/>6.2.3 Demodulation of AM signals<br/>6.3 Angle Modulation<br/>6.3.1 Spectra and Bandwidth of FM Signals<br/>6.3.2 FM Modulation Methods<br/>6.3.3 FM Detection Techniques<br/>6.3.4 Tradeoff Between SNR and Bandwidth in an FM Signal<br/>6.4 Digital Modulation—An Overview<br/>6.4.1 Factors that Influence the Choice of Digital Modulation<br/>6.4.2 Bandwidth and Power Spectral Density of Digital Signals<br/>6.5 Line Coding<br/>6.6 Pulse Shaping Techniques<br/>6.6.1 Nyquist Criterion for ISI Cancellation<br/>6.6.2 Raised Cosine Rolloff Filter<br/>6.6.3 Gaussian Pulse-Shaping Filter<br/>6.7 Geometric Representation of Modulation Signals<br/>6.8 Linear Modulation Techniques<br/>6.8.1 Binary Phase Shift Keying (BPSK)<br/>6.8.2 Differential Phase Shift Keying (DPSK)<br/>6.8.3 Quadrature Phase Shift Keying (QPSK)<br/>6.8.4 QPSK Transmission and Detection Techniques<br/>6.8.5 Offset QPSK<br/>6.8.6 71/4 QPSK<br/>6.8.7 7t/4 QPSK Transmission Techniques<br/>6.8.8 7t/4 QPSK Detection Techniques<br/>6.9 Constant Envelope Modulation<br/>6.9.1 Binary Frequency Shift Keying<br/>6.9.2 Minimum Shift Keying (MSK)<br/>6.9.3 Gaussian Minimum Shift Keying (GMSK)<br/>6.10 Combined Linear and Constant Envelope Modulation Techniques<br/>6.10.1 M-ary Phase Shift Keying (MPSK)<br/>6.10.2 M-ary Quadratiu-e Amplitude Modulation (QAM)<br/>6.10.3 M-ary Frequency Shift Keying (MFSK) and OFDM<br/>6.11 Spread Spectrum Modulation Techniques<br/>6.11.1 Pseudo-Noise (PN) Sequences<br/>6.11.2 Direct Sequence Spread Spectrum (DS-SS)<br/>6.11.3 Frequency Hopped Spread Spectrum (FH-SS)<br/>6.11.4 Performance of Direct Sequence Spread Spectrum<br/>6.11.5 Performance of Frequency Hopping Spread Spectrum<br/>6.12 Modulation Performance in Fading and Multipath Channels<br/>6.12.1 Performance of Digital Modulation in Slow Flat-Fading Channels<br/>6.12.2 Digital Modulation in Frequency Selective Mobile Channels<br/>6.12.3 Performance of 7i/4 DQPSK in Fading and Interference<br/>6.13 Problems<br/>Equalization, Diversity, and Cliannel Coding<br/>7.1 Introduction<br/>7.2 Fundamentals of Equalization<br/>7.3 Training A Generic Adaptive Equalizer<br/>7.4 Equalizers in a Communications Receiver<br/>7.5 Survey of Equalization Techniques<br/>7.6 Linear Equalizers<br/>7.7 Nonlinear Equalization<br/>7.7.1 Decision Feedback Equalization (DFE)<br/>7.7.2 Maximum Likelihood Sequence Estimation (MLSE) Equalizer<br/>7.8 Algorithms for Adaptive Equalization<br/>7.8.1 Zero Forcing Algorithm<br/>7.8.2 Least Mean Square Algorithm<br/>7.8.3 Recursive Least Squares Algorithm<br/>7.8.4 Sununary of Algorithms<br/>7.9 Fractionally Spaced Equalizers<br/>7.10 Diversity Techniques<br/>7.10.1 Derivation of Selection Diversity Improvement<br/>7.10.2 Derivation of Maximal Ratio Combining Improvement<br/>7.10.3 Practical Space Diversity Considerations<br/>7.10.3.1 Selection Diversity<br/>7.10.3.2 Feedback or Scanning Diversity<br/>7.10.3.3 Maximal Ratio Combining<br/>7.10.3.4 Equal Gain Combining<br/>7.10.4 Polarization Diversity<br/>7.10.5 Frequency Diversity<br/>7.10.6 Time Diversity<br/>7.11 RAKE Receiver<br/>7.12 Interleaving<br/>7.13 Fundamentals of Channel Coding<br/>7.14 Block Codes and Finite Fields<br/>7.14.1 Examples of Block Codes<br/>7.14.2 Case Study; Reed-Solomon Codes for CDPD<br/>7.14.2.1 Reed-Solomon Encoding<br/>7.14.2.2 Reed-Solomon Decoding<br/>7.15 Convolutional Codes<br/>7.15.1 Decoding of Convolutional Codes<br/>7.15.1.1 The Viterbi Algorithm<br/>7.15.1.2 Other Decoding Algorithms for Convolutional Codes<br/>7.16 Coding Gain<br/>7.17 Trellis Coded Modulation<br/>7.18 Turbo Codes<br/>7.19 Problems<br/>Speech Coding<br/>8.1 Introduction<br/>8.2 Characteristics of Speech Signals<br/>8.3 Quantization Techniques<br/>8.3.1 Uniform Quantization<br/>8.3.2 Nonuniform Quantization<br/>8.3.3 Adaptive Quantization<br/>8.3.4 Vector Quantization<br/>8.4 Adaptive Differential Pulse Code Modulation (ADPCM)<br/>8.5 Frequency Domain Coding of Speech<br/>8.5.1 Sub-band Coding<br/>8.5.2 Adaptive Transform Coding<br/>8.6 Vocoders<br/>8.6.1 Channel Vocoders<br/>8.6.2 Formant Vocoders<br/>8.6.3 Cepstrum Vocoders<br/>8.6.4 Voice-Excited Vocoder<br/>8.7 Linear Predictive Coders<br/>8.7.1 LPC Vocoders<br/>8.7.2 Multipulse Excited LPC<br/>8.7.3 Code-Excited LPC<br/>8.7.4 Residual Excited LPC<br/>8.8 Choosing Speech Codecs for Mobile Communications<br/>8.9 The GSM Codec<br/>8.10 The USDC Codec<br/>8.11 Performance Evaluation of Speech Coders<br/>8.12 Problems<br/>Multiple Access Techniques for Wireless Conmiunications<br/>9.1 Introduction<br/>9.1.1 Introduction to Multiple Access<br/>9.2 Frequency Division Multiple Access (FDMA)<br/>9.3 Time Division Multiple Access (TDMA)<br/>9.4 Spread Spectrum Multiple Access<br/>9.4.1 Frequency Hopped Multiple Access (FHMA)<br/>9.4.2 Code Division Multiple Access (CDMA)<br/>9.4.3 Hybrid Spread Spectrum Techniques<br/>9.5 Space Division Multiple Access (SDMA)<br/>9.6 Packet Radio<br/>9.6.1 Packet Radio Protocols<br/>9.6.1.1 Pure ALOHA<br/>9.6.1.2 Slotted ALOHA<br/>9.6.2 Carrier Sense Multiple Access (CSMA) Protocols<br/>9.6.3 Reservation Protocols<br/>9.6.3.1 Reservation ALOHA<br/>9.6.3.2 Packet Reservation Multiple Access (PRMA)<br/>9.6.4 Capture Effect in Packet Radio<br/>9.7 Capacity of Cellular Systems<br/>9.7.1 Capacity of Cellular CDMA<br/>9.7.2 Capacity of CDMA with Multiple Cells<br/>9.7.3 Capacity of Space Division Multiple Access<br/>9.8 Problems<br/>10 Wireless Networking<br/>10.1 Introduction to Wireless Networks<br/>10.2 Differences Between Wireless and Fixed Telephone Networks<br/>10.2.1 The Public Switched Telephone Network (PSTN)<br/>10.2.2 Limitations in Wireless Networking<br/>10.2.3 Merging Wireless Networks and the PSTN<br/>10.3 Development of Wireless Networks<br/>10.3.1 First Generation Wireless Networks<br/>10.3.2 Second Generation Wireless Networks<br/>10.3.3 Third Generation Wireless Networks<br/>10.4 Fixed Network Transmission Hierarchy<br/>10.5 Traffic Routing in Wireless Networks<br/>10.5.1 Circuit Switching<br/>10.5.2 Packet Switching<br/>10.5.3 The X.25 Protocol<br/>10.6 Wireless Data Services<br/>10.6.1 Cellular Digital Packet Data (CDPD)<br/>10.6.2 Advanced Radio Data Information Systems (ARDIS)<br/>10.6.3 RAM Mobile Data (RMD)<br/>10.7 Common Channel Signaling (CCS)<br/>10.7.1 The Distributed Central Switching Office for CCS<br/>10.8 Integrated Services Digital Network (ISDN)<br/>10.8.1 Broadband ISDN and ATM<br/>10.9 Signaling System No. 7 (SS7)<br/>10.9.1 Network Services Part (NSP) of SS7<br/>10.9.1.1 Message Transfer Part (MTP) of SS7<br/>10.9.1.2 Signaling Connection Control Part (SCCP) of SS7<br/>10.9.2 The SS7 User Part<br/>10.9.2.1 Integrated Services Digital Network User Part (ISUP)<br/>10.9.2.2 Transaction Capabilities Application Part (TCAP)<br/>10.9.2.3 Operation Maintenance and Administration Part (OMAP)<br/>10.9.3 Signaling Traffic in SS7<br/>10.9.4 SS7 Services<br/>10.9.5 Performance of SS7<br/>10.10 An Example of SS7 - Global Cellular Network Interoperability<br/>10.11 Personal Communication Services/Networks (PCS/PCNs)<br/>10.11.1 Packet vs. Circuit Switching for PCN<br/>10.11.2 Cellular Packet-Switched Architecture<br/>10.11.2.1 Network Functionality in Cellular Packet-Switched Architecture<br/>10.12 Protocols for Network Access<br/>10.12.1 Packet Reservation Multiple Access (PRMA)<br/>10.13 Network Databases<br/>10.13.1 Distributed Database for Mobility Management<br/>10.14 Universal Mobile Teleconununication System (UMTS)<br/>10.15 Summary<br/>11 Wireless Systems and Standards<br/>11.1 AMPS and ETACS<br/>11.1.1 AMPS and ETACS System Overview<br/>11.1.2 Call Handling in AMPS and ETACS<br/>11.1.3 AMPS and ETACS Air Interface<br/>11.1.4 N-AMPS<br/>11.2 United States Digital Cellular (IS-54 and IS-136)<br/>11.2.1 USDC Radio Interface<br/>11.2.2 United States Digital Cellular Derivatives (IS-94 and IS-136)<br/>11.3 Global System for Mobile (GSM)<br/>11.3.1 GSM Services and Featiu^s<br/>11.3.2 GSM System Architecture<br/>11.3.3 GSM Radio Subsystem<br/>11.3.4 GSM Channel Types<br/>11.3.4.1 GSM Traffic Channels (TCHs)<br/>11.3.4.2 GSM Control Channels (CCH)<br/>11.3.5 Example of a GSM Call<br/>11.3.6 Frame Structure for GSM<br/>11.3.7 Signal Processing in GSM<br/>11.4 CDMA Digital Cellular Standard (IS-95)<br/>11.4.1 Frequency and Channel Specifications<br/>11.4.2 Forward CDMA Channel<br/>11.4.2.1 Convolutional Encoder and Repetition Circuit<br/>11.4.2.2 Block Interleaver<br/>11.4.2.3 Long PN Sequence<br/>11.4.2.4 Data Scrambler<br/>11.4.2.5 Power Control Subchannel<br/>11.4.2.6 Orthogonal Covering<br/>11.4.2.7 Quadrature Modulation<br/>11.4.3 Reverse CDMA Channel<br/>11.4.3.1 Convolutional Encoder and Symbol Repetition<br/>11.4.3.2 Block Interleaver<br/>11.4.3.3 Orthogonal Modulation<br/>11.4.3.4 Variable Data Rate Transmission<br/>11.4.3.5 Direct Sequence Spreading<br/>11.4.3.6 Quadrature Modulation<br/>11.4.4 IS-95 with 14.4 kbps Speech Coder [ANS95]<br/>11.5 CT2 Standard for Cordless Telephones<br/>11.5.1 CT2 Services and Features<br/>11.5.2 The CT2 Standard<br/>11.6 Digital European Cordless Telephone (DECT)<br/>11.6.1 Features and Characteristics<br/>11.6.2 DECT Architecture<br/>11.6.3 DECT Functional Concept<br/>11.6.4 DECT Radio Link<br/>11.7 PACS — Personal Access Communication Systems<br/>11.7.1 PACS System Architecture<br/>11.7.2 PACS Radio Interface<br/>11.8 Pacific Digital Cellular (PDC)<br/>11.9 Personal Handyphone System (PHS)<br/>11.10 US PCS and ISM Bands<br/>11.11 US Wireless Cable Television<br/>11.12 Summary of Standards Throughout the World<br/>11.13 Problems |
650 #0 - SUBJECT | |
Keyword | Wireless Communication Systems |
Geographic subdivision | United States. |
650 #0 - SUBJECT | |
Keyword | Mobile Communication Systems |
650 #0 - SUBJECT | |
Keyword | Telecommunication systems |
942 ## - ADDED ENTRY ELEMENTS (KOHA) | |
Koha item type | General Books |
Withdrawn status | Lost status | Damaged status | Not for loan | Home library | Current library | Shelving location | Date acquired | Full call number | Accession number | Date last seen | Date last checked out | Koha item type |
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Central Library, Sikkim University | Central Library, Sikkim University | General Book Section | 03/06/2016 | 004.6 RAP/W | P35886 | 14/07/2018 | 14/07/2018 | General Books |