Wireless communications principles and practice
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ISBN:9787121092312
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简介
本书是无线通信课程的权威教材,面向那些已经熟悉诸如概率论、通信原理和基本电磁学等技术概念的学生和工程师。全书深入浅出地讨论了无线通信技术与系统设计方面的内容,包括无线网络涉及的所有基本问题,特别是3c系统和无线局域网的问题,并对无线网络技术新进展和全球主要的无线通信标准给出了论述。全书共分11章,集中讲述了蜂窝的概念、移动无线电传播、调制技术、多址技术以及无线系统与标准,结合理论对无线通信系统的各个方面做了精辟论述和统计分析。.
本书适合作为通信工程和电子信息类相关专业高年级本科生和研究生的双语教学教材,对有一定通信理论基础的工程技术人员也有很好的参考价值。...
目录
introduction to wireless communication systems .
1.1 evolution of mobile radio communications
1.2 mobile radiotelephony in the u.s.
1.3 mobile radio systems around the world
1.4 examples of wireless communication systems
1.5 trends in cellular radio and personal communications
1.6 problems
2 modern wireless communication systems
2.1 second generation (2g) cellular networks
2.2 third generation (3g) wireless networks
2.3 wireless local loop (wll) and lmds
2.4 wireless local area networks (wlans)
2.5 bluetooth and personal area networks (pans)
2.6 summary
2.7 problems
3 the cellular concept--system design fundamentals
3.1 introduction
3.2 frequency reuse
3.3 channel assignment strategies
3.4 handoff strategies
.3.5 interference and system capacity
3.6 trunking and grade of service
3.7 improving coverage & capacity in cellular systems
3.8 summary
3.9 problems
4 mobile radio propagation: large-scale path loss
4.1 introduction to radio wave propagation
4.2 free space propagation model
4.3 relating power to electric field
4.4 the three basic propagation mechanisms
4.5 reflection
4.6 ground reflection (two-ray) model
4.7 diffraction
4.8 scattering
4.9 practical link budget design using path loss models
4.10 outdoor propagation models
4.11 indoor propagation models
4.12 signal penetration into buildings
4.13 ray tracing and site specific modeling
4.14 problems
5 mobile radio propagation: small-scale fading and multipath
5.1 small-scale multipath propagation
5.2 impulse response model of a multipath channel
5.3 small-scale multipath measurements
5.4 parameters of mobile multipath channels
5.5 types of small-scale fading
5.6 rayleigh and ricean distributions
5.7 statistical models for multipath fading channels
5.8 theory of multipath shape factors for small-scale fading wireless channels
5.9 summary
5.10 problems
modulation techniques for mobile radio
6.1 frequency modulation vs. amplitude modulation
6.2 amplitude modulation
6.3 angle modulation
6.4 digital modulation--an overview
6.5 line coding
6.6 pulse shaping techniques
6.7 geometric representation of modulation signals
6.8 linear modulation techniques
6.9 constant envelope modulation
6.10 combined linear and constant envelope modulation techniques
6.11 spread spectrum modulation techniques
6.12 modulation performance in fading and multipath channels
6.13 problems
7 equalization, diversity, and channel coding
7.1 introduction
7.2 fundamentals of equalization
7.3 training a generic adaptive equalizer
7.4 equalizers in a communications receiver
7.5 survey of equalization techniques
7.6 linear equalizers
7.7 nonlinear equalization
7.8 algorithms for adaptive equalization
7.9 fractionally spaced equalizers
7.10 diversity techniques
7.11 rake receiver
7.12 interleaving
7.13 fundamentals of channel coding ..
7.14 block codes and finite fields
7.15 convolutional codes
7.16 coding gain
7.17 trellis coded modulation
7.18 turbo codes
7.19 problems
8 speech coding
8.1 introduction
8.2 characteristics of speech signals
8.3 quantization techniques
8.4 adaptive differential pulse code modulation (adpcm)
8.5 frequency domain coding of speech
8.6 vocoders
8.7 linear predictive coders
8.8 choosing speech codecs for mobile communications
8.9 the gsm codec
8.10 the usdc codec
8.11 performance evaluation of speech coders
8.12 problems
9 multiple access techniques for wireless communications
9.1 introduction
9.2 frequency division multiple access(fdma)
9.3 time division multiple access (tdma)
9.4 spread spectrum multiple access
9.5 space divisi0n-multipie access (sdma)
9.6 packet radio
9.7 capacity of cellular systems
9.8 problems
10 wireless networking
10.1 introduction to wireless networks
10.2 differences between wireless and fixed telephone networks
10.3 development of wireless networks
10.4 fixed network transmission hierarchy
10.5 traffic routing in wireless networks
10.6 wireless data services
10.7 common channel signaling (ccs)
10.8 integrated services digital network (isdn)
10.9 signaling system no. 7 (ss7)
10.10 an example of ss7 -- global cellular network interoperability
10.11 personal communication services/networks (pcs/pcns)
10.12 protocols for network access
10.13 network databases
10.14 universal mobile telecommunication system (umts)
10.15 summary
11 wireless systems and standards
11.1 amps and etacs
11.2 united states digital cellular (is-54 and is-136)
11.3 global system for mobile (gsm)
11.4 cdma [)igital cellular standard (is-95)
11.5 ct2 standard for cordless telephones
11.6 digital european cordless telephone (dect)
11.7 pacs -- personal access communication systems
11.8 pacific digital cellular (pdc)
11.9 personal handyphone system (phs)
11.10 us pcs and ism bands
11.11 us wireless cable television
11.12 summary of standards throughout the world
11.13 problems
appendices
a trunking theory
a.1 erlang b
a.2 erlangc
b noise figure calculations for link budgets
c rate variance relationships for shape factor theory
c.1 rate variance for complex voltage
c.2 rate variance for power
c.3 rate variance for envelope
d approximate spatial autocovariance function
for shape factor theory
e gaussian approximations for spread spectrum cdma
e.1 the gaussian approximation
e.2 the improved gaussian approximation (iga)
e.3 a simplified expression for the improved gaussian approximation (seiga)
f q, erf & erfc functions
f.1 the q-function
f.2 the erfand erfc functions
g mathematical tables, functions, and transforms
h abbreviations and acronyms
i references
index ...
1.1 evolution of mobile radio communications
1.2 mobile radiotelephony in the u.s.
1.3 mobile radio systems around the world
1.4 examples of wireless communication systems
1.5 trends in cellular radio and personal communications
1.6 problems
2 modern wireless communication systems
2.1 second generation (2g) cellular networks
2.2 third generation (3g) wireless networks
2.3 wireless local loop (wll) and lmds
2.4 wireless local area networks (wlans)
2.5 bluetooth and personal area networks (pans)
2.6 summary
2.7 problems
3 the cellular concept--system design fundamentals
3.1 introduction
3.2 frequency reuse
3.3 channel assignment strategies
3.4 handoff strategies
.3.5 interference and system capacity
3.6 trunking and grade of service
3.7 improving coverage & capacity in cellular systems
3.8 summary
3.9 problems
4 mobile radio propagation: large-scale path loss
4.1 introduction to radio wave propagation
4.2 free space propagation model
4.3 relating power to electric field
4.4 the three basic propagation mechanisms
4.5 reflection
4.6 ground reflection (two-ray) model
4.7 diffraction
4.8 scattering
4.9 practical link budget design using path loss models
4.10 outdoor propagation models
4.11 indoor propagation models
4.12 signal penetration into buildings
4.13 ray tracing and site specific modeling
4.14 problems
5 mobile radio propagation: small-scale fading and multipath
5.1 small-scale multipath propagation
5.2 impulse response model of a multipath channel
5.3 small-scale multipath measurements
5.4 parameters of mobile multipath channels
5.5 types of small-scale fading
5.6 rayleigh and ricean distributions
5.7 statistical models for multipath fading channels
5.8 theory of multipath shape factors for small-scale fading wireless channels
5.9 summary
5.10 problems
modulation techniques for mobile radio
6.1 frequency modulation vs. amplitude modulation
6.2 amplitude modulation
6.3 angle modulation
6.4 digital modulation--an overview
6.5 line coding
6.6 pulse shaping techniques
6.7 geometric representation of modulation signals
6.8 linear modulation techniques
6.9 constant envelope modulation
6.10 combined linear and constant envelope modulation techniques
6.11 spread spectrum modulation techniques
6.12 modulation performance in fading and multipath channels
6.13 problems
7 equalization, diversity, and channel coding
7.1 introduction
7.2 fundamentals of equalization
7.3 training a generic adaptive equalizer
7.4 equalizers in a communications receiver
7.5 survey of equalization techniques
7.6 linear equalizers
7.7 nonlinear equalization
7.8 algorithms for adaptive equalization
7.9 fractionally spaced equalizers
7.10 diversity techniques
7.11 rake receiver
7.12 interleaving
7.13 fundamentals of channel coding ..
7.14 block codes and finite fields
7.15 convolutional codes
7.16 coding gain
7.17 trellis coded modulation
7.18 turbo codes
7.19 problems
8 speech coding
8.1 introduction
8.2 characteristics of speech signals
8.3 quantization techniques
8.4 adaptive differential pulse code modulation (adpcm)
8.5 frequency domain coding of speech
8.6 vocoders
8.7 linear predictive coders
8.8 choosing speech codecs for mobile communications
8.9 the gsm codec
8.10 the usdc codec
8.11 performance evaluation of speech coders
8.12 problems
9 multiple access techniques for wireless communications
9.1 introduction
9.2 frequency division multiple access(fdma)
9.3 time division multiple access (tdma)
9.4 spread spectrum multiple access
9.5 space divisi0n-multipie access (sdma)
9.6 packet radio
9.7 capacity of cellular systems
9.8 problems
10 wireless networking
10.1 introduction to wireless networks
10.2 differences between wireless and fixed telephone networks
10.3 development of wireless networks
10.4 fixed network transmission hierarchy
10.5 traffic routing in wireless networks
10.6 wireless data services
10.7 common channel signaling (ccs)
10.8 integrated services digital network (isdn)
10.9 signaling system no. 7 (ss7)
10.10 an example of ss7 -- global cellular network interoperability
10.11 personal communication services/networks (pcs/pcns)
10.12 protocols for network access
10.13 network databases
10.14 universal mobile telecommunication system (umts)
10.15 summary
11 wireless systems and standards
11.1 amps and etacs
11.2 united states digital cellular (is-54 and is-136)
11.3 global system for mobile (gsm)
11.4 cdma [)igital cellular standard (is-95)
11.5 ct2 standard for cordless telephones
11.6 digital european cordless telephone (dect)
11.7 pacs -- personal access communication systems
11.8 pacific digital cellular (pdc)
11.9 personal handyphone system (phs)
11.10 us pcs and ism bands
11.11 us wireless cable television
11.12 summary of standards throughout the world
11.13 problems
appendices
a trunking theory
a.1 erlang b
a.2 erlangc
b noise figure calculations for link budgets
c rate variance relationships for shape factor theory
c.1 rate variance for complex voltage
c.2 rate variance for power
c.3 rate variance for envelope
d approximate spatial autocovariance function
for shape factor theory
e gaussian approximations for spread spectrum cdma
e.1 the gaussian approximation
e.2 the improved gaussian approximation (iga)
e.3 a simplified expression for the improved gaussian approximation (seiga)
f q, erf & erfc functions
f.1 the q-function
f.2 the erfand erfc functions
g mathematical tables, functions, and transforms
h abbreviations and acronyms
i references
index ...
Wireless communications principles and practice
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