Muutke küpsiste eelistusi

E-raamat: Multi-carrier Techniques For Broadband Wireless Communications: A Signal Processing Perspective

(Univ Of Southern California, Usa), (Univ Di Pisa, Italy), (Univ Of Southern California, Usa)
Teised raamatud teemal:
  • Formaat - PDF+DRM
  • Hind: 52,65 €*
  • * hind on lõplik, st. muud allahindlused enam ei rakendu
  • Lisa ostukorvi
  • Lisa soovinimekirja
  • See e-raamat on mõeldud ainult isiklikuks kasutamiseks. E-raamatuid ei saa tagastada.
  • Raamatukogudele
Multi-carrier Techniques For Broadband Wireless Communications: A Signal Processing PerspectiveSuurem pilt
Teised raamatud teemal:

DRM piirangud

  • Kopeerimine (copy/paste):

    ei ole lubatud

  • Printimine:

    ei ole lubatud

  • Kasutamine:

    Digitaalõiguste kaitse (DRM)
    Kirjastus on väljastanud selle e-raamatu krüpteeritud kujul, mis tähendab, et selle lugemiseks peate installeerima spetsiaalse tarkvara. Samuti peate looma endale  Adobe ID Rohkem infot siin. E-raamatut saab lugeda 1 kasutaja ning alla laadida kuni 6'de seadmesse (kõik autoriseeritud sama Adobe ID-ga).

    Vajalik tarkvara
    Mobiilsetes seadmetes (telefon või tahvelarvuti) lugemiseks peate installeerima selle tasuta rakenduse: PocketBook Reader (iOS / Android)

    PC või Mac seadmes lugemiseks peate installima Adobe Digital Editionsi (Seeon tasuta rakendus spetsiaalselt e-raamatute lugemiseks. Seda ei tohi segamini ajada Adober Reader'iga, mis tõenäoliselt on juba teie arvutisse installeeritud )

    Seda e-raamatut ei saa lugeda Amazon Kindle's. 

This work introduces orthogonal frequency-division multiplexing (OFDM)-based systems from a signal processing perspective. The first part of the book presents a concise treatment of some fundamental concepts related to wireless communications and multicarrier systems. The second part surveys recent developments in a variety of critical design issues, including synchronization techniques, channel estimation methods, adaptive resource allocation, and techniques for reducing the peak-to-average power ratio of the transmitted waveform. Unlike many other books on multicarrier transmissions, this work addresses the issues of resource assignment, synchronization, and channel estimation in depth. The book is for graduate students, design engineers in the telecommunications industry, and researchers in academia. Pun is affiliated with Princeton University. The book is distributed in the US by World Scientific. Annotation ©2008 Book News, Inc., Portland, OR (booknews.com)
Preface vii
Introduction
1(16)
Aim of this book
1(2)
Evolution of wireless communications
3(11)
Pioneering era of wireless communications
4(1)
First generation (1G) cellular systems
5(1)
Second generation (2G) cellular systems
6(1)
Third generation (3G) cellular systems
7(1)
Wireless local and personal area networks
8(3)
Wireless metropolitan area networks
11(2)
Next generation wireless broadband systems
13(1)
Historical notes on multicarrier transmissions
14(1)
Outline of this book
15(2)
Fundamentals of OFDM/OFDMA Systems
17(34)
Mobile channel modeling
17(16)
Parameters of wireless channels
18(9)
Categorization of fading channels
27(6)
Conventional methods for channel fading mitigation
33(4)
Time-selective fading
34(1)
Frequency-selective fading
34(3)
OFDM systems
37(7)
System architecture
37(3)
Discrete-time model of an OFDM system
40(4)
Spectral efficiency
44(1)
Strengths and drawbacks of OFDM
45(1)
OFDM-based multiple-access schemes
46(2)
Channel coding and interleaving
48(3)
Time and Frequency Synchronization
51(56)
Sensitivity to timing and frequency errors
52(9)
Effect of timing offset
54(4)
Effect of frequency offset
58(3)
Synchronization for downlink transmissions
61(15)
Timing acquisition
62(5)
Fine timing tracking
67(2)
Frequency acquisition
69(3)
Frequency tracking
72(4)
Synchronization for uplink transmissions
76(19)
Uplink signal model with synchronization errors
78(3)
Timing and frequency estimation for systems with subband CAS
81(3)
Timing and frequency estimation for systems with interleaved CAS
84(4)
Frequency estimation for systems with generalized CAS
88(7)
Timing and frequency offset compensation in uplink transmissions
95(12)
Timing and frequency compensation with subband CAS
96(4)
Frequency compensation through interference cancellation
100(1)
Frequency compensation through linear multiuser detection
101(3)
Performance of frequency correction schemes
104(3)
Channel Estimation and Equalization
107(28)
Channel equalization
108(3)
Pilot-aided channel estimation
111(14)
Scattered pilot patterns
112(1)
Pilot distances in time and frequency directions
113(1)
Pilot-aided channel estimation
114(1)
2D Wiener interpolation
115(2)
Cascaded 1D interpolation filters
117(8)
Advanced techniques for blind and semi-blind channel estimation
125(8)
Subspace-based methods
126(3)
EM-based channel estimation
129(4)
Performance comparison
133(2)
Joint Synchronization, Channel Estimation and Data Symbol Detection in OFDMA Uplink
135(24)
Uncoded OFDMA uplink
136(14)
Signal model
136(1)
Iterative detection and frequency synchronization
137(7)
Practical adjustments
144(2)
Performance assessment
146(4)
Trellis-coded OFDMA uplink
150(9)
Signal model for coded transmissions
150(2)
Iterative detection and frequency synchronization with coded transmissions
152(5)
Performance assessment
157(2)
Dynamic Resource Allocation
159(42)
Resource allocation in single-user OFDM systems
160(22)
Classic water-filling principle
161(5)
Rate maximization and margin maximization
166(1)
Rate-power function
167(1)
Optimal power allocation and bit loading under BER constraint
168(3)
Greedy algorithm for power allocation and bit loading
171(2)
Bit loading with uniform power allocation
173(3)
Performance comparison
176(2)
Subband adaptation
178(1)
Open-loop and closed-loop adaptation
179(1)
Signaling for modulation parameters
180(2)
Resource allocation in multiuser OFDM systems
182(15)
Multiaccess water-filling principle
184(4)
Multiuser rate maximization
188(2)
Max-min multiuser rate maximization
190(2)
Multiuser margin maximization
192(2)
Subcarrier assignment through average channel signal-to-noise ratio
194(3)
Dynamic resource allocation for MIMO-OFDMA
197(2)
Cross-layer design
199(2)
Peak-to-Average Power Ratio (PAPR) Reduction
201(42)
PAPR definitions
202(1)
Continuous-time and discrete-time PAPR
203(3)
Statistical properties of PAPR
206(2)
Amplitude clipping
208(11)
Clipping and filtering of oversampled signals
209(5)
Signal-to-clipping noise ratio
214(3)
Clipping noise mitigation
217(2)
Selected mapping (SLM) technique
219(4)
Partial transmit sequence (PTS) technique
223(5)
Coding
228(4)
Tone reservation and injection techniques
232(5)
Tone reservation (TR)
232(2)
Tone injection (TI)
234(3)
PAPR reduction for OFDMA
237(2)
SLM for OFDMA
238(1)
PTS for OFDMA
238(1)
TR for OFDMA
238(1)
Design of AGC unit
239(4)
Bibliography 243(12)
Index 255
Lisainfo e-raamatute kohta Lisainfo e-raamatute kohta
Püsilink: https://www.kriso.ee/db/97819089790492e.html