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100   $a20160812h20162016  uy             0
101 0 $aeng
135   $aur|n|---|||||
181   $2rdacontent
182   $2rdamedia
183   $2rdacarrier
200 10$aTransitions from digital communications to quantum communications $econcepts and prospects /$fMalek Benslama, Hadj Batatia, Abderraouf Messai
210  1$aLondon, [England] ;$aHoboken, New Jersey :$cISTE :$cWiley,$d2016.
210  4$dİ2016
215   $a1 online resource (218 p.)
225 1 $aNetworks and Telecommunications Series
300   $aDescription based upon print version of record.
311   $a1-84821-925-3 
311   $a1-119-33025-4 
320   $aIncludes bibliographical references and index.
327   $aTable of Contents; Dedication; Title; Copyright; Foreword; Preface; Introduction; List of Acronyms; PART 1: Theory; 1 Non-linear Signal Processing; 1.1. Distributions; 1.2. Variance; 1.3. Covariance; 1.4. Stationarity; 1.5. Bayes inference; 1.6. Tensors in signal processing; 1.7. Processing the quantum signal; 2 Non-Gaussian Processes; 2.1. Defining Gaussian processes; 2.2. Non-Gaussian processes; 2.3. Principal component analysis or Karhunen-Loe?ve transformation; 2.4. Sparse Gaussian processes; 2.5. Levy process; 2.6. Links with quantum communications; 3 Sparse Signals and Compressed Sensing
327   $a3.1. Sparse Signals3.2. Compressed sensing; 3.3. Compressed sensing and quantum signal; 4 The Fourier Transform; 4.1. The Classic Fourier Transform; 4.2. The Discreet Fourier Transform and the Fast Fourier Transform; 4.3. The Fourier Transform and hyper-functions; 4.4. Hilbert Transform; 4.5. Clifford algebra and the Fourier Transform; 4.6. Spinors and quantum signals; 5 The Contribution of Arithmetic to Signal Processing; 5.1. Gauss sums; 5.2. Applications for Gauss sums; 6 Riemannian Geometry and Signal Processing; 6.1. Context; 6.2. Riemannian varieties; 6.3. Voronoi cells
327   $a6.4. Applications to Voronoi cellsPART 2: Applications; 7 MIMO Systems; 7.1. Introduction; 7.2. A brief history of OFDM; 7.3. Multi-carrier technology; 7.4. OFDM technique; 7.5. Generating OFDM symbols; 7.6. Inter-symbol and inter-carrier interference; 7.7. Cyclic prefix; 7.8. Mathematical model of the OFDM system; 7.9. MIMO channels; 7.10. The MIMO channel model; 7.11. MIMO OFDM channel model; 8 Minimizing Interferences in DS-CDMA Systems; 8.1. Convolutional encoding; 8.2. Structure of convolutive codes; 8.3. Polynomial representation; 8.4. Graphic representations of convolutive codes
327   $a8.5. Decoding algorithms8.6. Discreet Wavelet Transform (DWT); 8.7. Construction and discreet filtering; 8.8. Defining the wavelet function: the place of detail; 8.9. Wavelets and filter banks; 8.10. Thresholding coefficients; 8.11. Simulating results; 9 STAP Radar; 9.1. Introduction; 9.2. Space-time adaptive processing (STAP); 9.3. Structure of the covariance matrix; 9.4. Clutter; 9.5. Optimal STAP; 9.6. Performance measures; 9.7. Influence of the radar's parameters on detection; 9.8. Sample matrix inversion algorithm (SMI); 9.9. Conclusion
327   $a10 Tracking Radar (Using the Dempster-Shafer Theory)10.1. Introduction; 10.2. Dempster-Shafer theory; 10.3. Rules of combination; 10.4. Decision rules; 10.5. Digital simulation; 10.6. Conclusion; 11 InSAR Radar; 11.1. Introduction; 11.2. Coherence; 11.3. System model; 11.4. Inferometric phase statistics; 11.5. Quantitative examples; 11.6. Conclusion; 12 Telecommunications Networks; 12.1. Introduction; 12.2. Describing the ad hoc simulated network's topology; 12.3. The different scenarios enacted; 12.4. The statistics collected; 12.5. Discussion of results
327   $a12.6. Part two: network using OLSR for routing
410  0$aNetworks and telecommunications series.
606   $aDigital communications
606   $aQuantum communication
615  0$aDigital communications.
615  0$aQuantum communication.
676   $a621.382
700   $aBenslama$b Malek$0872879
702   $aBatatia$b Hadj
702   $aMessai$b Abderraouf
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910812858003321
996   $aTransitions from digital communications to quantum communications$94078633
997   $aUNINA