Modern Communications Jamming Principles and TechniquesArtech House, 2011 - 870 Seiten This newly revised and greatly expanded edition of the popular Artech House book, Modern Communications Jamming Principles and Techniques, provides an up-to-date, exhaustive treatment of the techniques and methods available to create countermeasures against anti-jam, over-the-air communications. The Second Edition features a wealth of new material on urban warfare, including a computer simulation of EW architecture alternatives for land-based forces based on urban constraints. The new edition also includes an expanded section on time-hopped spread spectrum communications, more details on modern communication system technologies such as CDMA and OFDM, and an in-depth discussion on sources of urban noise.This practical resource is focused on showing you how to design and build jammers specifically targeted at spread spectrum, anti-jam communications. Moreover, you find assistance in evaluating the expected performance of jamming systems against modern communications systems, and discover the best waveform to use to counter communication systems designed to be effective in jamming environments.While mathematical derivations in general are avoided, the book presents error rate performance equations for most modern digital anti-jam communication systems. Written with the professional engineer in mind, this cutting-edge book also serves as an excellent reference for technical personnel new to the communication electronic warfare field due to the inclusion of easy-to-understand introductory material. This resource is packed with over 580 equations and more than 320 illustrations, including graphical examples that allow you to estimate general jammer performance at a glance. |
Inhalt
1 | |
15 | |
Chapter 3 Signaling for Modern Communications | 121 |
Chapter 4 Antijam Signal Detection | 241 |
Chapter 5 Radio Signal Propagation | 319 |
Chapter 6 Feedback Shift Registers and Recursive Sequences | 377 |
Chapter 7 Synchronization and Tracking in SpreadSpectrum Systems | 411 |
Chapter 8 Jamming Techniques | 467 |
Chapter 14 Electronic Warfare and Hybrid Spread Spectrum Systems | 705 |
Chapter 15 Characteristics of Urban Terrain | 739 |
Chapter 16 Signal Propagation in Urban Settings | 755 |
Chapter 17 Urban Electronic Warfare | 791 |
Chapter 18 Robust Blind Detection and Geolocation of CDMA Signals in an Urban Environment | 813 |
Appendix A QFunction | 843 |
Appendix B Simulated Networks | 849 |
List of Acronyms | 857 |
Chapter 10 Electronic Warfare and Direct SequenceSpread Spectrum Systems | 533 |
Chapter 11 Electronic Warfare and Fast Frequency Hopping Systems | 597 |
Chapter 12 Electronic Warfare and Slow Frequency Hopping Systems | 631 |
Chapter 13 Electronic Warfare and UltrawidebandSystems | 669 |
About the Author | 861 |
863 | |
Andere Ausgaben - Alle anzeigen
Modern Communications Jamming: Principles and Techniques Richard Poisel Keine Leseprobe verfügbar - 2011 |
Modern Communications Jamming Principles and Techniques Richard Poisel Keine Leseprobe verfügbar - 2004 |
Häufige Begriffe und Wortgruppen
amplitude antenna assumed AWGN bandwidth beamformer BFSK bit error BPSK carrier CDMA Chapter chip code sequence coherent communication systems complementary channel component correlator data bit decoding denoted density detector diffraction DSSS signal DSSS systems DSSS/SFHSS dwell effects energy estimate false alarm FHSS follower jamming frequency hopping function Gaussian given IEEE IEEE Transactions illustrated in Figure impulse input intercept interference jammer jammer tone jamming performance LFSR matched filter MFSK MILCOM monocycle MT jamming multipath multiple narrowband noncoherent OFDM offset output parameters path path loss PBN jamming phase probability of detection Proceedings IEEE MILCOM processing gain pulse QPSK radiometer range received signal Reprinted with permission SFHSS shift register shown in Figure Source Spread Spectrum symbol synchronization target signal techniques thermal noise threshold tone jamming Transactions on Communications typically urban UWB signal values waveform