Spread Spectrum and CDMA (eBook)
400 Seiten
Wiley (Verlag)
978-0-470-09179-1 (ISBN)
This comprehensive resource presents the spread spectrum concept as a product of the advancements in wireless IT, shows how and when the classical problems of signal transmission/processing stimulate the application of spread spectrum, and clarifies the advantages of spread spectrum philosophy. Detailed coverage is provided of the tools and instruments for designing spread spectrum and CDMA signals answering why a designer will prefer one solution over another. The approach adopted is wide-ranging, covering issues that apply to both data transmission and data collection systems such as telecommunications, radar, and navigation.
- Presents a theory-based analysis complemented by practical examples and real world case studies resulting in a self-sufficient treatment of the subject
- Contains detailed discussions of new trends in spread spectrum technology such as multi-user reception, multicarrier modulation, OFDM, MIMO and space-time coding
- Provides advice on designing discrete spread spectrum signals and signal sets for time-frequency measuring, synchronization and multi-user communications
- Features numerous Matlab-based problems and other exercises to encourage the reader to initiate independent investigations and simulations
This valuable text provides timely guidance on the current status and future potential of spread spectrum and CDMA and is an invaluable resource for senior undergraduates and postgraduate students, lecturers and practising engineers and researchers involved in the deployment and development of spread spectrum and CDMA technology.
Supported by a Companion website on which instructors and lecturers can find a solutions manual for the problems and Matlab programming, electronic versions of some of the figures and other useful resources such as a list of abbreviations.
Valery Ipatov is a currently a Professor at the University of Turku in Finland. Highly experienced in his field, Prof. Ipatov has been involved in spread spectrum research since the early 1970s.
His knowledge and expertise have resulted in his being an Invited Lecturer at organisations and universities in England, Australia, Finland, China and Korea and have won him a number of awards from his native Russia such as Honoured Science Worker of the Russian Federation and distinguished badges from the Soviet Ministry of Higher Education.
He has contributed to and edited four previous books in this field and his wealth of experience has resulted in his current teaching duties spanning graduates, postgraduates, researchers and industry engineers.
Spread spectrum and CDMA are cutting-edge technologies widely used in operational radar, navigation and telecommunication systems and play a pivotal role in the development of the forthcoming generations of systems and networks. This comprehensive resource presents the spread spectrum concept as a product of the advancements in wireless IT, shows how and when the classical problems of signal transmission/processing stimulate the application of spread spectrum, and clarifies the advantages of spread spectrum philosophy. Detailed coverage is provided of the tools and instruments for designing spread spectrum and CDMA signals answering why a designer will prefer one solution over another. The approach adopted is wide-ranging, covering issues that apply to both data transmission and data collection systems such as telecommunications, radar, and navigation. Presents a theory-based analysis complemented by practical examples and real world case studies resulting in a self-sufficient treatment of the subject Contains detailed discussions of new trends in spread spectrum technology such as multi-user reception, multicarrier modulation, OFDM, MIMO and space-time coding Provides advice on designing discrete spread spectrum signals and signal sets for time-frequency measuring, synchronization and multi-user communications Features numerous Matlab-based problems and other exercises to encourage the reader to initiate independent investigations and simulations This valuable text provides timely guidance on the current status and future potential of spread spectrum and CDMA and is an invaluable resource for senior undergraduates and postgraduate students, lecturers and practising engineers and researchers involved in the deployment and development of spread spectrum and CDMA technology. Supported by a Companion website on which instructors and lecturers can find a solutions manual for the problems and Matlab programming, electronic versions of some of the figures and other useful resources such as a list of abbreviations.
Valery Ipatov is a currently a Professor at the University of Turku in Finland. Highly experienced in his field, Prof. Ipatov has been involved in spread spectrum research since the early 1970s. His knowledge and expertise have resulted in his being an Invited Lecturer at organisations and universities in England, Australia, Finland, China and Korea and have won him a number of awards from his native Russia such as Honoured Science Worker of the Russian Federation and distinguished badges from the Soviet Ministry of Higher Education. He has contributed to and edited four previous books in this field and his wealth of experience has resulted in his current teaching duties spanning graduates, postgraduates, researchers and industry engineers.
Preface.
1 Spread spectrum signals and systems.
1.1 Basic definition.
1.2 Historical sketch.
2 Classical reception problems and signal design.
2.1 Gaussian channel, general reception problem and optimal decision rules.
2.2 Binary data transmission (deterministic signals).
2.3 M-ary data transmission: deterministic signals.
2.4 Complex envelope of a bandpass signal.
2.5 M-ary data transmission: noncoherent signals.
2.6 Trade-off between orthogonal-coding gain and bandwidth.
2.7 Examples of orthogonal signal sets.
2.8 Signal parameter estimation.
2.9 Amplitude estimation.
2.10 Phase estimation.
2.11 Autocorrelation function and matched filter response.
2.12 Estimation of the bandpass signal time delay.
2.13 Estimation of carrier frequency.
2.14 Simultaneous estimation of time delay and frequency.
2.15 Signal resolution.
2.16 Summary.
Problems.
3 Merits of spread spectrum.
3.1 Jamming immunity.
3.2 Low probability of detection.
3.3 Signal structure secrecy.
3.4 Electromagnetic compatibility.
3.5 Propagation effects in wireless systems.
3.6 Diversity.
3.7 Multipath diversity and RAKE receiver.
Problems.
4 Multiuser environment: code division multiple access.
4.1 Multiuser systems and the multiple access problem.
4.2 Frequency division multiple access.
4.3 Time division multiple access.
4.4 Synchronous code division multiple access.
4.5 Asynchronous CDMA.
4.6 Asynchronous CDMA in the cellular networks.
Problems.
5 Discrete spread spectrum signals.
5.1 Spread spectrum modulation.
5.2 General model and categorization of discrete signals.
5.3 Correlation functions of APSK signals.
5.4 Calculating correlation functions of code sequences.
5.5 Correlation functions of FSK signals.
5.6 Processing gain of discrete signals.
Problems.
6 Spread spectrum signals for time measurement, synchronization and time-resolution.
6.1 Demands on ACF: revisited.
6.2 Signals with continuous frequency modulation.
6.3 Criterion of good aperiodic ACF of APSK signals.
6.4 Optimization of aperiodic PSK signals.
6.5 Perfect periodic ACF: minimax binary sequences.
6.6 Initial knowledge on finite fields and linear sequences.
6.7 Periodic ACF of m-sequences.
6.8 More about finite fields.
6.9 Legendre sequences.
6.10 Binary codes with good aperiodic ACF: revisited.
6.11 Sequences with perfect periodic ACF.
6.12 Suppression of sidelobes along the delay axis.
6.13 FSK signals with optimal aperiodic ACF.
Problems.
7 Spread spectrum signature ensembles for CDMA applications.
7.1 Data transmission via spread spectrum.
7.2 Designing signature ensembles for synchronous DS CDMA.
7.3 Approaches to designing signature ensembles for asynchronous DS CDMA.
7.4 Time-offset signatures for asynchronous CDMA.
7.5 Examples of minimax signature ensembles.
Problems.
8 DS spread spectrum signal acquisition and tracking.
8.1 Acquisition and tracking procedures.
8.2 Serial search.
8.3 Acquisition acceleration techniques.
8.4 Code tracking.
Problems.
9 Channel coding in spread spectrum systems.
9.1 Preliminary notes and terminology.
9.2 Error-detecting block codes.
9.3 Convolutional codes.
9.4 Turbo codes.
9.5 Channel interleaving.
Problems.
10 Some advancements in spread spectrum systems development.
10.1 Multiuser reception and suppressing MAI.
10.2 Multicarrier modulation and OFDM.
10.3 Transmit diversity and space-time coding in CDMA systems.
Problems.
11 Examples of operational wireless spread spectrum systems.
11.1 Preliminary remarks.
11.2 Global positioning system.
11.3 Air interfaces cdmaOne (IS-95) and cdma2000.
11.4 Air interface UMTS.
References.
Index.
| Erscheint lt. Verlag | 13.12.2005 |
|---|---|
| Sprache | englisch |
| Themenwelt | Naturwissenschaften ► Physik / Astronomie ► Mechanik |
| Technik ► Elektrotechnik / Energietechnik | |
| Schlagworte | Drahtlose Kommunikation • Electrical & Electronics Engineering • Elektrotechnik u. Elektronik • Mobile & Wireless Communications • Signal Processing • Signalverarbeitung |
| ISBN-10 | 0-470-09179-7 / 0470091797 |
| ISBN-13 | 978-0-470-09179-1 / 9780470091791 |
| Haben Sie eine Frage zum Produkt? |
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