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200 10$aReconstruction of chaotic signals with applications to chaos-based communications$b[electronic resource] /$fJiu Chao Feng, Chi Kong Tse
210   $a[Beijing, China] $cTsinghua University Press ;$aSingapore ;$aHackensack, NJ $cWorld Scientific$dc2008
215   $a1 online resource (232 p.)
300   $aDescription based upon print version of record.
311   $a981-277-113-1 
320   $aIncludes bibliographical references (p. 188-218) and index.
327   $aPreface; Acknowledgements; Contents; 1 Chaos and Communications; 1.1 Historical Account; 1.2 Chaos; 1.3 Quantifying Chaotic Behavior; 1.3.1 Lyapunov Exponents for Continuous-Time Nonlinear Systems; 1.3.2 Lyapunov Exponent for Discrete-Time Systems; 1.3.3 Kolmogorov Entropy; 1.3.4 Attractor Dimension; 1.4 Properties of Chaos; 1.5 Chaos-Based Communications; 1.5.1 Conventional Spread Spectrum; 1.5.2 Spread Spectrum with Chaos; 1.5.3 Chaotic Synchronization; 1.6 Communications Using Chaos as Carriers; 1.6.1 Chaotic Masking Modulation; 1.6.2 Dynamical Feedback Modulation
327   $a1.6.3 Inverse System Modulation 1.6.4 Chaotic Modulation; 1.6.5 Chaos Shift Keying; 1.6.6 Differential Chaos Shift Keying Modulation; 1.7 Remarks on Chaos-Based Communications; 1.7.1 Security Issues; 1.7.2 Engineering Challenges; 2 Reconstruction of Signals; 2.1 Reconstruction of System Dynamics; 2.1.1 Topological Embeddings; 2.1.2 Delay Coordinates; 2.2 Differentiable Embeddings; 2.3 Phase Space Reconstruction-Example; 2.4 Problems and Research Approaches; 3 Fundamentals of Neural Networks; 3.1 Motivation; 3.2 Benefits of Neural Networks; 3.3 Radial Basis Function Neural Networks
327   $a3.3.1 Background Theory 3.3.2 Research Progress in Radial Basis Function Networks; 3.4 Recurrent Neural Networks; 3.4.1 Introduction; 3.4.2 Topology of the Recurrent Networks; 3.4.3 Learning Algorithms; 4 Signal Reconstruction in Noise free and Distortionless Channels; 4.1 Reconstruction of Attractor for Continuous Time-Varying Systems; 4.2 Reconstruction and Observability; 4.3 Communications Based on Reconstruction Approach; 4.3.1 Parameter Estimations; 4.3.2 Information Retrievals; 4.4 Reconstruction of Attractor for Discrete Time-Varying Systems; 4.5 Summary
327   $a5 Signal Reconstruction from a Filtering Viewpoint: Theory 5.1 The Kalman Filter and Extended Kalman Filter; 5.1.1 The Kalman Filter; 5.1.2 Extended Kalman Filter; 5.2 The Unscented Kalman Filter; 5.2.1 The Unscented Kalman Filtering Algorithm; 5.2.2 Convergence Analysis for the UKF Algorithm; 5.2.3 Computer Simulations; 5.2.3.1 Type 1; 5.2.3.2 Type 2; 5.2.3.3 Type 3; 5.3 Summary; 6 Signal Reconstruction from a Filtering Viewpoint: Application; 6.1 Introduction; 6.2 Filtering of Noisy Chaotic Signals; 6.2.1 Filtering Algorithm; 6.2.2 Computer Simulation
327   $a6.3 Blind Equalization for Fading Channels 6.3.1 Modeling of Wireless Communication Channels; 6.3.2 Blind Equalization of Fading Channels with Fixed Channel Coefficients; 6.3.3 Blind Equalization for Time-Varying Fading Channels; 6.4 Summary; 7 Signal Reconstruction in Noisy Channels; 7.1 Review of Chaotic Modulation; 7.2 Formulation of Chaotic Modulation and Demodulation; 7.3 On-Line Adaptive Learning Algorithm and Demodulation; 7.3.1 Description of the Network; 7.3.2 Network Growth; 7.3.3 Network Update with Extended Kalman Filter; 7.3.4 Pruning of Hidden Units
327   $a7.3.5 Summary of the Flow of Algorithm
330   $aThis book provides a systematic review of the fundamental theory of signal reconstruction and the practical techniques used in reconstructing chaotic signals. Specific applications of signal reconstruction methods in chaos-based communications are expounded in full detail, along with examples illustrating the various problems associated with such applications.The book serves as an advanced textbook for undergraduate and graduate courses in electronic and information engineering, automatic control, physics and applied mathematics. It is also highly suited for general nonlinear scientists who
606   $aSignal processing
606   $aTelecommunication$xQuality control
606   $aChaotic behavior in systems
615  0$aSignal processing.
615  0$aTelecommunication$xQuality control.
615  0$aChaotic behavior in systems.
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701   $aTse$b Chi Kong$0731126
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200 10$aIn too deep$b[electronic resource] $eBP and the drilling race that took it down /$fStanley Reed, Alison Fitzgerald
210   $aHoboken, N.J. $cBloomberg Press$d2011
215   $a1 online resource (250 p.)
225 0 $aBloomberg News
300   $aIncludes index.
311   $a0-470-95090-0 
327   $aIn Too Deep: BP And The Drilling Race That Took It Down; Contents; Cast of Characters; Authors' Note; Prologue; Chapter 1: Night of Horror, Day of Triumph; Chapter 2: The Oil Lord; Chapter 3: Agents of Empire; Chapter 4: The Big Kahuna of the Gulf; Chapter 5: Money, Politics, and Bad Timing; Chapter 6: Lord Browne's Long Goodbye; Chapter 7: Riding the Throughput Curve; Chapter 8: Tony Hayward Comes Up Short; Chapter 9: Disaster on the Horizon; Chapter 10: BP Struggles to Survive; Epilogue; Acknowledgments; Notes; About the Authors; Index
330   $a"The truth behind the greatest environmental disaster in U.S. history. In 2005, fifteen workers were killed when BP's Texas City Refinery exploded. In 2006, corroded pipes owned by BP led to an oil spill in Alaska. Now, in 2010, eleven BP workers were killed in the Gulf of Mexico's Macondo blowout. What's next? In In Too Deep: BP and the Drilling Race that Took It Down, Stanley Reed--a journalist who has covered BP for over a decade--and investigative reporter Alison Fitzgerald answer not only the question of what's next but also examine why these disasters always happen to BP and not to the other large oil companies. The book shows that practices put in place by former BP CEO John Browne who was forced to resign after salacious details of his private life emerged in 2007 may have more to do with the disaster than anything, details a BP built on risk-taking and cost-cutting, and examines the past, present, and future of BP. In August 2010, BP successfully "killed" the company's damaged deepwater well. But, the environmental fallout and public relations campaign to rebuild the brand are just beginning. In Too Deep details why BP suffered this disaster, why now, and what's next for the oil giant."--$cProvided by publisher.
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606   $aBP Deepwater Horizon Explosion and Oil Spill, 2010
606   $aOil wells$zMexico, Gulf of$xBlowouts
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615  0$aOil wells$xBlowouts.
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