Perspectives in Spread SpectrumPerspectives in Spread Spectrum brings together studies and recent work on six exciting topics from the spread spectrum arts. The book gives a wide, collective view of trends, ideas, and techniques in the spread spectrum discipline, due to the authors' extensive work on spread spectrum techniques and applications from different vantage points. The inexorable march of electronics towards ever faster, ever smaller, and ever more powerful electronic and optical circuitry has wrought, and will continue to enable, profound changes in the spread spectrum arts, by allowing increasingly complex signalling waveforms and statistical tests to be implemented as the theory beyond spread spectrum continues to evolve. Perspectives in Spread Spectrum is divided into six chapters. The first chapter deals with sequence spreading design. There is not a single metric for design of spreading sequences; rather, the design is ideally tailored to the specific scenario of usage. This chapter delves into recent and very promising synthesis work. The second chapter deals with OFDM techniques. As channels become wider and trans-channel fading (or jamming) becomes frequency selective across the band, OFDM techniques may provide a powerful alternative design perspective. The third chapter is a generalization of the venerable Walsh functions. A new modulation scheme, Geometric Harmonic Modulation, GHM for short, is reviewed and characterized as a form of OFDM. From GHM, a further generalization of the Walsh functions is derived for non-binary signalling. The fourth chapter is concerned with some new and exciting results regarding the follower jammer paradigm. A counter-countermeasure technique is reviewed, notable for its counterintuitive characteristic which can be understood from a simple yet elegant game framework. The fifth chapter recounts some results pertaining to random coding for an optical spread spectrum link. The technique is based on laser speckle statistics and uses a coherent array of spatial light modulators at the transmitter but allows the receiver to be realized as a spatially distributed radiometric and therefore incoherent structure. The sixth and final chapter looks at an important and interesting application of spread spectrum to accurately locate a wideband, ‘bent pipe’, satellite transponder. It is, in a strong sense, an inverted GPS technique. Perspectives in Spread Spectrum serves as an excellent reference and source of ideas for further research, and may be used as a text for advanced courses on the topic. |
Contents
1 | |
OFDM SPREAD SPECTRUM COMMUNICATIONS 35 | 34 |
Chapter References | 56 |
GENERALIZATION OF WALSH FUNCTIONS | 59 |
FREQUENCYHOPPED SS WITH FOLLOWER JAMMING | 79 |
SPATIAL OPTICAL CDMA | 107 |
SPREAD SPECTRUM OVERLAY AND RANGING 127 | 126 |
Appendices | 145 |
Other editions - View all
Perspectives in Spread Spectrum Amer A. Hassan,John E. Hershey,Gary Saulnier No preview available - 2011 |
Common terms and phrases
2DLMS+DF amplitude aperture autocorrelation bandwidth Bit Error Rate bit-error-rate BPSK carriers CDMA chip communications system considered conventional cross correlation data bit intervals decision feedback delay spread domain excision Doppler earth stations Eb/NJ electronic energy equal estimate filter banks frequency domain frequency response frequency-hopped spread spectrum Gaussian noise GHM signal Gold codes Ho(z IEEE IEEE Transactions ISBN J. E. Hershey jammer jamming lenslet m-sequences modulation multi-access multi-user channel multi-user interference multipath number of users objective function OFDM optical optical correlator orbit orthogonal output partial-band path phase pixel PN sequence power spectral density PR-QMF based codes Probability of Bit processing Progressively Optimized random received signal sampling satellite's shown in Figure simulation speckle pattern spread spectrum system spreading codes spreading sequences symbol interval technique Thue-Morse sequence tone jammer transform domain transmissions transmit transponder unconventional mode values vectors waveform wideband zero