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E-raamat: Wireless Communications Systems Design

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  • Formaat: PDF+DRM
  • Ilmumisaeg: 03-Aug-2015
  • Kirjastus: John Wiley & Sons Inc
  • Keel: eng
  • ISBN-13: 9781118759455
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Wireless Communications Systems DesignSuurem pilt
  • Formaat: PDF+DRM
  • Ilmumisaeg: 03-Aug-2015
  • Kirjastus: John Wiley & Sons Inc
  • Keel: eng
  • ISBN-13: 9781118759455
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Wireless Communications Systems Design provides the basic knowledge and methodology for wireless communications design. The book mainly focuses on a broadband wireless communication system based on OFDM/OFDMA system because it is widely used in the modern wireless communication system. It is divided into three parts: wireless communication theory (part I), wireless communication block design (part II), and wireless communication block integration (part III). Written by an expert with various experience in system design (standards, research and development)
Preface xi
List of Abbreviations
xiii
Part I Wireless Communications Theory
1(122)
1 Historical Sketch of Wireless Communications
3(8)
1.1 Advancement of Wireless Communications Technologies
3(3)
1.2 Wireless Communications, Lifestyles, and Economics
6(5)
References
9(2)
2 Probability Theory
11(20)
2.1 Random Signals
11(5)
2.2 Spectral Density
16(2)
2.3 Correlation Functions
18(7)
2.4 Central Limit Theorem
25(3)
2.5 Problems
28(3)
Reference
30(1)
3 Wireless Channels
31(20)
3.1 Additive White Gaussian Noise
31(3)
3.2 Large-Scale Path Loss Models
34(4)
3.3 Multipath Channels
38(8)
3.4 Empirical Wireless Channel Models
46(2)
3.5 Problems
48(3)
References
50(1)
4 Optimum Receiver
51(24)
4.1 Decision Theory
51(4)
4.2 Optimum Receiver for AWGN
55(11)
4.3 Matched Filter Receiver
66(3)
4.4 Coherent and Noncoherent Detection
69(4)
4.5 Problems
73(2)
References
74(1)
5 Wireless Channel Impairment Mitigation Techniques
75(48)
5.1 Diversity Techniques
75(7)
5.2 Error Control Coding
82(17)
5.2.1 Linear Block Codes
84(8)
5.2.2 Convolutional Codes
92(7)
5.3 MIMO
99(8)
5.4 Equalization
107(7)
5.5 OFDM
114(6)
5.6 Problems
120(3)
References
121(2)
Part II Wireless Communications Blocks Design
123(200)
6 Error Correction Codes
125(84)
6.1 Turbo Codes
125(30)
6.1.1 Turbo Encoding and Decoding Algorithm
125(8)
6.1.2 Example of Turbo Encoding and Decoding
133(16)
6.1.3 Hardware Implementation of Turbo Encoding and Decoding
149(6)
6.2 Turbo Product Codes
155(20)
6.2.1 Turbo Product Encoding and Decoding Algorithm
155(1)
6.2.2 Example of Turbo Product Encoding and Decoding
156(18)
6.2.3 Hardware Implementation of Turbo Product Encoding and Decoding
174(1)
6.3 Low-Density Parity Check Codes
175(30)
6.3.1 LDPC Encoding and Decoding Algorithms
175(16)
6.3.2 Example of LDPC Encoding and Decoding
191(8)
6.3.3 Hardware Implementation of LDPC Encoding and Decoding
199(6)
6.4 Problems
205(4)
References
206(3)
7 Orthogonal Frequency-Division Multiplexing
209(30)
7.1 OFDM System Design
209(8)
7.2 FFT Design
217(15)
7.3 Hardware Implementations of FFT
232(5)
7.4 Problems
237(2)
References
238(1)
8 Multiple Input Multiple Output
239(40)
8.1 MIMO Antenna Design
239(1)
8.2 Space Time Coding
240(14)
8.3 Example of STTC Encoding and Decoding
254(12)
8.4 Spatial Multiplexing and MIMO Detection Algorithms
266(10)
8.5 Problems
276(3)
References
277(2)
9 Channel Estimation and Equalization
279(22)
9.1 Channel Estimation
279(14)
9.2 Channel Estimation for MIMO--OFDM System
293(2)
9.3 Equalization
295(3)
9.4 Hardware Implementation of Channel Estimation and Equalizer for OFDM System
298(1)
9.5 Problems
298(3)
References
299(2)
10 Synchronization
301(22)
10.1 Fundamental Synchronization Techniques for OFDM System
301(4)
10.2 Synchronization Errors
305(5)
10.3 Synchronization Techniques for OFDM System
310(9)
10.4 Hardware Implementation of OFDM Synchronization
319(1)
10.5 Problems
320(3)
References
321(2)
Part III Wireless Communications Systems Design
323(88)
11 Radio Planning
325(24)
11.1 Radio Planning and Link Budget Analysis
325(10)
11.2 Traffic Engineering
335(10)
11.3 Problems
345(4)
References
347(2)
12 Wireless Communications Systems Design and Considerations
349(30)
12.1 Wireless Communications Systems Design Flow
349(4)
12.2 Wireless Communications Systems Design Considerations
353(17)
12.3 Hardware and Software Codesign
370(7)
12.4 Problems
377(2)
References
378(1)
13 Wireless Communications Blocks Integration
379(32)
13.1 High Level View of Wireless Communications Systems
379(4)
13.2 4G Physical Layer Systems
383(18)
13.2.1 LTE
384(10)
75.2.2 WiMAX
394(6)
13.2.3 Comparison of LTE and WiMAX
400(1)
13.3 SoC Design for 4G Communication System
401(8)
13.3.1 Software Design for 4G Communication System
403(1)
13.3.2 Hardware Design for 4G Communication System
404(5)
13.4 Problems
409(2)
References
410(1)
Index 411
Dr Haesik Kim, VTT, Finland Dr Haesik Kim received the Ph.D. degree in Communication Systems from Lancaster University in UK. He is currently Sr. scientist in VTT Technical Research Centre of Finland and is involved in many research works such as energy efficient wireless communications, cognitive radio and network, etc. Previously, he was with NEC Laboratory UK where he carried out research on WiMAX physical layer design and standard. He has also worked at Samsung Advanced Institute of Technology (SAIT) where he focused on UWB and SDR physical layer design and served as system definition group member of WiMedia (MB-OFDM based UWB standard). Prior to that, he worked as ADSL modem developer in SME.
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