Autonomous Software Defined Radio Descanso Jpl Nasa Gov-Books Pdf

Autonomous Software Defined Radio descanso jpl nasa gov
12 Jun 2020 | 20 views | 0 downloads | 431 Pages | 3.43 MB

Share Pdf : Autonomous Software Defined Radio Descanso Jpl Nasa Gov

Download and Preview : Autonomous Software Defined Radio Descanso Jpl Nasa Gov

Report CopyRight/DMCA Form For : Autonomous Software Defined Radio Descanso Jpl Nasa Gov



Transcription

DEEP SPACE COMMUNICATIONS AND NAVIGATION SERIES, Issued by the Deep Space Communications and Navigation Systems. Center of Excellence, Jet Propulsion Laboratory, California Institute of Technology. Joseph H Yuen Editor in Chief, Published Titles in this Series. Radiometric Tracking Techniques for Deep Space Navigation. Catherine L Thornton and James S Border, Formulation for Observed and Computed Values of. Deep Space Network Data Types for Navigation, Theodore D Moyer.
Bandwidth Efficient Digital Modulation with Application. to Deep Space Communications, Marvin K Simon, Large Antennas of the Deep Space Network. William A Imbriale, Antenna Arraying Techniques in the Deep Space Network. David H Rogstad Alexander Mileant and Timothy T Pham. Radio Occultations Using Earth Satellites, A Wave Theory Treatment. William G Melbourne, Deep Space Optical Communications. Hamid Hemmati Editor, DEEP SPACE COMMUNICATIONS AND NAVIGATION SERIES.
Spaceborne Antennas for Planetary Exploration, William A Imbriale Editor. Autonomous Software Defined Radio Receivers for, Deep Space Applications. Jon Hamkins and Marvin K Simon Editors, Autonomous Software Defined. Radio Receivers for Deep, Space Applications, Jon Hamkins and Marvin K Simon Editors. Jet Propulsion Laboratory, California Institute of Technology.
DEEP SPACE COMMUNICATIONS AND NAVIGATION SERIES, Autonomous Software Defined Radio Receivers for. Deep Space Applications, The research described in this publication was carried out at the. Jet Propulsion Laboratory California Institute of Technology under. a contract with the National Aeronautics and Space Administration. Reference herein to any specific commercial product process or service. by trade name trademark manufacturer or otherwise does not constitute. or imply its endorsement by the United States Government or the. Jet Propulsion Laboratory California Institute of Technology. Table of Contents, Foreword xiii, Preface xv, Acknowledgments xvii. Contributors xix, Chapter 1 Introduction and Overview 1. by Jon Hamkins and Marvin K Simon, 1 1 Preliminaries 3.
1 1 1 Signal Model 3, 1 1 2 Anatomy of the Received Signal 5. 1 2 Radio Receiver Architectures 8, 1 2 1 A Conventional Radio Receiver 8. 1 2 2 Electra 10, 1 2 3 An Autonomous Radio 10, 1 3 Estimators and Classifiers of the Autonomous Radio 12. 1 3 1 Carrier Phase Tracking 12, 1 3 2 Modulation Classification 13. 1 3 3 Signal to Noise Ratio Estimation 13, 1 3 4 Frequency Tracking 14.
1 4 An Iterative Message Passing Architecture 14, 1 4 1 Messages from the Symbol Timing Estimator 15. 1 4 2 Messages from the Phase Tracker 15, 1 4 3 Messages from the Modulation Classification 15. 1 4 4 Messages from the Decoder 15, 1 5 A Demonstration Testbed 16. References 16, Chapter 2 The Electra Radio 19, by Edgar Satorius Tom Jedrey David Bell Ann Devereaux. Todd Ely Edwin Grigorian Igor Kuperman and Alan Lee. 2 1 Electra Receiver Front End Processing 20, 2 1 1 AGC 22.
2 1 2 ADC 24, 2 1 3 Digital Downconversion and Decimation 25. 2 2 Electra Demodulation 25, 2 2 1 Frequency Acquisition and Carrier Tracking Loop 27. 2 2 2 Navigation Doppler Phase Measurement 30, 2 2 3 Symbol Timing Recovery 30. 2 2 4 Viterbi Node Sync and Symbol SNR Estimation 33. 2 3 Electra Digital Modulator 39, References 42, Chapter 3 Modulation Index Estimation 45. by Marvin K Simon and Jon Hamkins, 3 1 Coherent Estimation 46.
3 1 1 BPSK 46, 3 1 2 M PSK 50, 3 2 Noncoherent Estimation 54. 3 3 Estimation in the Absence of Knowledge of the, Modulation Data Rate Symbol Timing and SNR 56. 3 4 Noncoherent Estimation in the Absence of, Carrier Frequency Knowledge 61. Chapter 4 Frequency Correction 63, by Dariush Divsalar. 4 1 Frequency Correction for Residual Carrier 63, 4 1 1 Channel Model 64.
4 1 2 Optimum Frequency Estimation over an AWGN Channel 64. 4 1 3 Optimum Frequency Estimation over a Raleigh, Fading Channel 65. 4 1 4 Open Loop Frequency Estimation 66, 4 1 5 Closed Loop Frequency Estimation 67. 4 2 Frequency Correction for Known Data Modulated Signals 72. 4 2 1 Channel Model 72, 4 2 2 Open Loop Frequency Estimation 74. 4 2 3 Closed Loop Frequency Estimation 74, 4 3 Frequency Correction for Modulated Signals with. Unknown Data 78, 4 3 1 Open Loop Frequency Estimation 79.
4 3 2 Closed Loop Frequency Estimation 80, References 83. Table of Contents vii, Chapter 5 Data Format and Pulse Shape Classification 85. by Marvin K Simon and Dariush Divsalar, 5 1 Coherent Classifiers of Data Format for BPSK 86. 5 1 1 Maximum Likelihood Coherent Classifier of Data. Format for BPSK 86, 5 1 2 Reduced Complexity Data Format BPSK Classifiers 88. 5 1 3 Probability of Misclassification for Coherent BPSK 89. 5 2 Coherent Classifiers of Data Format for QPSK 94. 5 2 1 Maximum Likelihood Coherent Classifier of Data. Format for QPSK 94, 5 2 2 Reduced Complexity Data Format QPSK Classifiers 96.
5 2 3 Probability of Misclassification for Coherent QPSK 97. 5 3 Noncoherent Classification of Data Format for BPSK 98. 5 3 1 Maximum Likelihood Noncoherent Classifier of Data. Format for BPSK 98, 5 3 2 Probability of Misclassification for Noncoherent BPSK 105. 5 4 Maximum Likelihood Noncoherent Classifier of Data. Format for QPSK 108, 5 5 Maximum Likelihood Coherent Classifier of Data Format. for BPSK with Residual and Suppressed Carriers 109. 5 6 Maximum Likelihood Noncoherent Classifier of Data. Format for BPSK with Residual and Suppressed, Carriers 113. 5 7 Maximum Likelihood Pulse Shape Classification 117. References 119, Chapter 6 Signal to Noise Ratio Estimation 121. by Marvin K Simon and Samuel Dolinar, 6 1 Signal Model and Formation of the Estimator 123.
6 1 1 Sampled Version 123, 6 1 2 I D Version 126, 6 2 Methods of Phase Compensation 129. 6 3 Evaluation of h 131, 6 4 Mean and Variance of the SNR Estimator 132. 6 4 1 Exact Moment Evaluations 132, 6 4 2 Asymptotic Moment Evaluations 136. 6 5 SNR Estimation in the Presence of Symbol Timing Error 145. 6 5 1 Signal Model and Formation of the Estimator 146. 6 5 2 Mean and Variance of the SNR Estimator 149, 6 6 A Generalization of the SSME Offering Improved. Performance 150, 6 7 A Method for Improving the Robustness of the.
Generalized SSME 156, 6 8 Special Case of the SSME for BPSK Modulated Data 158. 6 9 Comparison with the Cramer Rao Lower Bound on the. Variance of SNR Estimators 161, 6 10 Improvement in the Presence of Frequency Uncertainty 165. 6 11 The Impact of the Oversampling Factor on the, Performance of the Modified SSME in the Presence of. Symbol Timing Error 171, 6 12 Other Modulations 175. 6 12 1 Offset QPSK 175, 6 12 2 QAM 179, 6 13 The Time Multiplexed SSME 180.
6 13 1 An Adaptive SSME 184, References 188, Appendix 6 A Derivation of Asymptotic Mean and Variance. of SSME 190, Chapter 7 Data Rate Estimation 193, by Andre Tkacenko and Marvin K Simon. 7 1 Data Rate Estimation Based on the Mean of the SSME. SNR Estimator 194, 7 1 1 Signal Model and Assumptions 194. 7 1 2 Relation of the SSME SNR Estimator to Data Rate. Estimation 196, 7 1 3 SSME Data Rate Estimation Algorithm 200. 7 1 4 GLRT Type SSME Data Rate Estimation Algorithm 201. 7 2 Effects of Symbol Timing Error on Estimating the. Data Rate 201, 7 2 1 Accounting for the Symbol Timing Error 202.
7 3 Quantization of the Symbol Timing Error 204, Table of Contents ix. 7 3 1 All Digital Implementation of the SSME Based Data. Rate Estimator 205, 7 3 2 SSME Data Rate SNR Symbol Timing Error Estimation. Algorithm 208, 7 3 3 GLRT Type SSME Data Rate SNR Symbol Timing. Error Estimation Algorithm 209, 7 4 Simulation Results for the SSME Based Estimation. Algorithms 209, 7 4 1 Performance Metrics Used for Evaluating the Estimation.
Algorithms 210, 7 4 2 Behavior of the SSME Based Data Rate Estimation. Algorithms as a Function of SNR 213, 7 4 3 Behavior of the SSME Based Data Rate Estimation. Algorithms as a Function of Symbol Timing Error 220. References 226, Chapter 8 Carrier Synchronization 227. by Marvin K Simon and Jon Hamkins, 8 1 Suppressed versus Residual Carrier Synchronization 229. 8 2 Hybrid Carrier Synchronization 230, 8 3 Active versus Passive Arm Filters 233.
8 4 Carrier Synchronization of Arbitrary Modulations 247. 8 4 1 MPSK 247, 8 4 2 QAM and Unbalanced QPSK 259, 8 4 3 4 Differentially Encoded QPSK 264. References 264, Appendix 8 A Cramer Rao Bound on the Variance of the. Error in Estimating the Carrier Phase of a, BPSK Signal 266. Chapter 9 Modulation Classification 271, by Jon Hamkins and Marvin K Simon. 9 1 Preliminaries 272, 9 1 1 Signal Model 272, 9 1 2 Conditional Likelihood Function 273.
9 2 Modulation Classifiers 274, 9 2 1 ML Classifiers 274. 9 2 2 Suboptimum Classifiers 276, 9 3 Threshold Optimization 278. 9 3 1 Suboptimality of Previously Derived Thresholds 278. 9 3 2 Empirical Threshold Optimization 279, 9 4 Complexity 281. 9 4 1 ML Classifier 281, 9 4 2 Coarse Integral Approximate ML Classifier 282. 9 4 3 qGLRT Classifier 282, 9 4 4 qLLR and nqLLR 282.
9 5 Classification Error Floor 283, 9 6 Numerical Results 284. 9 7 Unknown Symbol Timing 289, 9 8 BPSK 4 QPSK Classification 292. 9 8 1 ML Noncoherent Classifier Averaging over Data then. Carrier Phase 292, 9 8 2 ML Noncoherent Classifier Averaging over Carrier Phase. then Data 293, 9 8 3 Suboptimum Classifiers 294, 9 9 Noncoherent Classification of Offset Quadrature. Modulations 295, 9 9 1 Channel Model and Conditional Likelihood Function 296.
9 9 2 Classification of OQPSK versus BPSK 299, 9 9 3 Suboptimum Simpler to Implement Classifiers 301. 9 9 4 Classification of MSK versus QPSK 306, 9 10 Modulation Classification in the Presence of Residual. Carrier Frequency Offset 308, References 309, Appendix 9 A Parameter Estimation for the GLRT 311. Appendix 9 B ML Estimation of Carrier Phase for 4 QPSK. Modulation 315, Chapter 10 Symbol Synchronization 321. by Marvin K Simon, 10 1 MAP Motivated Closed Loop Symbol Synchronization 323.
10 2 The DTTL as an Implementation of the MAP Estimation. Loop for Binary NRZ Signals at High SNR 325, Table of Contents xi. 10 3 Conventional versus Linear Data Transition Tracking. 10 3 1 The Loop S Curve 331, 10 3 2 Noise Performance 333. 10 3 3 Mean Squared Timing Error Performance 335, 10 4 Simplified MAP Motivated Closed Loop Symbol. Synchronizers for M PSK 338, 10 5 MAP Sliding Window Estimation of Symbol Timing 339. 10 5 1 A Brief Discussion of Performance and Its Bounds for. Open and Closed Loop Symbol Timing Techniques 341, 10 5 2 Formulation of the Sliding Window Estimator 343.
10 5 3 Extension to Other Pulse Shapes 346, 10 6 Symbol Synchronization in the Absence of Carrier. Phase Information 347, 10 6 1 Suboptimum Schemes 347. 10 6 2 The Noncoherent DTTL 359, 10 7 The Impact of Carrier Frequency Offset on Performance 377. 10 7 1 S Curve Performance 381, 10 7 2 Noise Performance 384. 10 7 3 Mean Squared Timing Error Performance 384, 10 7 4 A Final Note 385.
10 8 Coarse Estimation of Symbol Timing for Use in SNR. Estimation 386, References 389, Chapter 11 Implementation and Interaction of Estimators. and Classifiers 391, by Jon Hamkins and Hooman Shirani Mehr. 11 1 Signal Model 392, 11 2 Interaction of Estimator and Classifiers 393. 11 3 Coarse and Fine Estimators Classifiers 395, 11 3 1 Modulation Index Estimation 395. 11 3 2 Frequency Correction 397, 11 3 3 Joint Estimation of Data Rate Data Format SNR and.
Coarse Symbol Timing 398, 11 3 4 Modulation Classification 400. 11 3 5 Carrier Synchronization 403, 11 3 6 Symbol Synchronization 406. Reference 408, Acronyms and Abbreviations 411, The Deep Space Communications and Navigation Systems Center of. Excellence DESCANSO was established in 1998 by the National Aeronautics. and Space Administration NASA at the California Institute of Technology s. Jet Propulsion Laboratory JPL DESCANSO is chartered to harness and. promote excellence and innovation to meet the communications and navigation. needs of future deep space exploration, DESCANSO s vision is to achieve continuous communications and precise. navigation any time anywhere In support of that vision DESCANSO aims. to seek out and advocate new concepts systems and technologies foster key. technical talents and sponsor seminars workshops and symposia to facilitate. interaction and idea exchange, The Deep Space Communications and Navigation Series authored by.
scientists and engineers with many years of experience in their respective. fields lays a foundation for innovation by communicating state of the art. knowledge in key technologies The series also captures fundamental principles. and practices developed during decades of deep space exploration at JPL In. addition it celebrates successes and imparts lessons learned Finally the series. will serve to guide a new generation of scientists and engineers. Joseph H Yuen, DESCANSO Leader, The steady march of radio receiver technology over the decades has. enabled smaller and increasingly capable radio terminals The development of. the transistor in the 1950s enabled the replacement of heavy tubes which. reduced receiver weight dramatically To take advantage of . Autonomous Software Defined Radio Receivers for Deep Space Applications Jon Hamkins and Marvin K Simon Editors Jet Propulsion Laboratory California Institute of Technology

Related Books

1999 2003 Ducati Supersport 900ss Factory Repair Manual

1999 2003 Ducati Supersport 900ss Factory Repair Manual

Ducati Supersport 900ss 1999 2003 Service Repair Manual Download Now This package covers all the service and repair information about 1999 2003 Ducati Supersport 900ss You will surely enjoy browsing through the pages and learning how to repair the different parts of your machine Dwonload Service Repair Manual for Ducati

Spare parts catalogue SUPERSPORT 800 U S A Ducati

Spare parts catalogue SUPERSPORT 800 U S A Ducati

Ducati Motor Holding S p A Commercial and Administation Office Via A Cavalieri Ducati n 3 40132 Bologna Italy Telefono 051 6413111 Fax 051 406580 Internet www ducati com CATALOGUE No ISSUED CATALOGUE No ISSUED The present spare parts order exactly the right spare parts When ordering specify VALIDITY f m d m f m m d m m

Owner s manual E DUCATIMOTORHOLDING

Owner s manual E DUCATIMOTORHOLDING

Owner s manual DUCATIMOTORHOLDING SUPERSPORT1000 2 E 3 E Hearty welcome among Ducati fans Please accept our best compliments for choosing a Ducati motorcycle We think you will ride your Ducati motorcycle for long journeys as well as short daily trips Ducati Motor Holding S p A wishes you smooth and enjoyable riding We are steadily doing our best to improve our Technical Assistance

Spare parts catalogue SUPERSPORT 1000 i e U S A

Spare parts catalogue SUPERSPORT 1000 i e U S A

Ducati Motor Holding S p A Commercial and Administation Office Via A Cavalieri Ducati n 3 40132 Bologna Italy Telefono 051 6413111 Fax 051 406580 Internet www ducati com CATALOGUE No ISSUED CATALOGUE No ISSUED The present spare parts order exactly the right spare parts When ordering specify VALIDITY f m d m f m m d m m

Three Questions Accounting Strategic Finance

Three Questions Accounting Strategic Finance

Three Questions Accounting April 2006I STRATEGIC FINANCE 49 Management Accounting s Accounting This proposed new name for Throughput Accountingshows that we have to answer three important questionsto see if a decision is good for a company B Y T HOMAS C ORBETT There has been quite a lot of discussion regarding the Theory of Constraints TOC approach to management accounting which has

Photoshop b sico CS6

Photoshop b sico CS6

configuraci n ser la misma a la utilizada en la elaboraci n de este manual 1 Si tiene abierto Photoshop cierre el programa median te Archivo gt Salir 2 Localice el icono de acceso directo al programa A n no ejecute el programa 3 Coloque los dedos sin presionar sobre las teclas Alt May s Ctrl 4 Una vez que est preparado haga clic sobre el acceso directo de Photoshop

Manuales Gratuitos de Dise o Gr fico

Manuales Gratuitos de Dise o Gr fico

Manual Adobe Photoshop CC PDF Ayuda y tutoriales Curso Photoshop CS6 1 Curso Photoshop CS6 clase 2 Curso Photoshop CS6 clase 3 T cnicas profesionales de retoque facial con Photoshop Completo manual de Photoshop en 41 cap tulos Manual 13 pr cticas para perderle el miedo a Photoshop CS5 Manual para aprender a usar Photoshop de solodrivers T e r e s a A l b a MadridNYC 4 Manuales

The Indian pharmaceutical industry the way forward

The Indian pharmaceutical industry the way forward

The Indian pharmaceutical industry the way forward The Indian pharmaceutical industry the way forward Contents The Indian pharma industry contributions 07 to global health outcomes Vision 2030 defining the growth aspiration 11 Opportunities and challenges for achieving 15 Vision 2030 Case studies on driving growth through 21 government support Actions needed to achieve Vision

Clinical Trial Protocol Documents Template

Clinical Trial Protocol Documents Template

Requirement for prohibited concomitant medications Pregnancy or bre astfeeding if applicable Reaching a defined clinical endpoint if applicable Completion of study product s i ntervention s as defined in the protocol Request by participant to terminate study product s intervention s Clinical conditions which in the best judgment of the investigator are believed to be harmful or

Guidelines for phase 1 clinical trials ABPI

Guidelines for phase 1 clinical trials ABPI

This 2012 edition of the ABPI Guidelines for Phase 1 Clinical Trials is science based and is a remarkably thorough and notably clear compilation of updated information and guidance on best practice It covers all of the key points and warrants close reading and frequent reference by those involved in the development investigation and regulation of new medicines As we enter an era of high