01438nam0 2200361 i 450 CFI001192820231121125424.0IT86-132 20161114d1986 ||||0itac50 baitaitz01i xxxe z01n˜L'œAbbazia di Rossanocontributo alla storia della VaticanaPierre Batiffoltraduzione dal francese di Giuseppe CrocentiSoveria MannelliCalabria letteraria1986XVI, 212 p.24 cm.Saggi1001CFI00120052001 Saggi1˜L'œAbbaye de Rossano. -CFI0012008CFIV007271298955Abbazia di RossanoStoriaManoscrittiFIRRMLC434305E274.578CHIESA CRISTIANA. Calabria19Batiffol, PierreCFIV007271070164229Crocenti, GiuseppeCFIV007272Batiffol, Pierre-HenriSBNV071191Batiffol, PierreBatiffol, PietroSBNV071192Batiffol, PierreITIT-0120161114IT-FR0017 Biblioteca umanistica Giorgio ApreaFR0017 NCFI0011928Biblioteca umanistica Giorgio Aprea 52SALA BRAGAS.S.L. 210 52ATE0000012195 VMB RS A 2016111420161114 52Abbaye de Rossano298955UNICAS05940nam 22005773 450 991100718080332120240122171345.09781523162505152316250397816308192171630819212(CKB)29403698400041(MiAaPQ)EBC31063391(Au-PeEL)EBL31063391(OCoLC)1419869919(EXLCZ)992940369840004120240114h20242024 uy 0engur|||||||||||txtrdacontentcrdamediacrrdacarrierNavigation and Tracking in Space Analysis and Algorithms /Sanat Biswas, Andrew Dempster1st ed.Norwood :Artech House,[2024]©2024.1 online resource (xi, 194 pages) illustrations, chartsGNSS technology and applications series9781630819200 1630819204 Includes bibliographical references and index.Navigation and Tracking in Space: Analysis and Algorithms -- Contents -- Preface -- Introduction -- Background -- Scope of the Book -- Objectives -- Overview of the Book -- Preliminaries -- Linear Algebra -- Three-Dimensional Rotation Matrices -- Probability -- Motion of an Object in Space -- References -- Space Vehicle Dynamics -- Overview -- Reference Frames -- Earth-Centered Inertial Frame -- Earth-Centered Earth-Fixed Frame -- Topocentric Frame -- Solar Ecliptic Coordinate System -- Reference Frame Conversion -- Force Model -- Perturbation Forces -- Thrust -- State Space Model of Space Vehicles -- Earth Orbiting Satellites -- Launch Vehicle -- Reentry Vehicle -- Interplanetary Spacecraft -- References -- Observations -- Overview -- Ground-Based Observations -- Active and Passive Radio Observations -- Satellite Laser Ranging -- Very Long Baseline Interferometry -- Onboard Observations -- Angular Measurements to Celestial Objects -- Earth-Based Target Reference Measurement -- Range Measurement to Known Beacon -- GNSS Observations -- Dilution of Precision -- Inertial Navigation System -- Summary -- References -- Estimation Algorithms -- Overview -- Space Vehicle Navigation as an Estimation Problem -- Least Square Estimation and Batch Processing -- The Kalman Filter -- The Kalman Filter for Discrete Linear Systems -- Extended Kalman Filter -- Unscented Kalman Filter -- Computationally Efficient Unscented Kalman Filters -- Particle Filter -- Sequential Importance Sampling -- Particle Filter Variants -- Nonlinearity and Choice of Estimator -- Nonlinearity Index -- Nonlinearity and Estimator Performance -- Choosing the Right Estimation Algorithm -- MATLAB® Implementation of Estimation Algorithms -- EKF Implementation -- UKF Implementation -- SPUKF Implementation -- ESPUKF Implementation -- Particle Filter Implementation -- ESP-PF Implementation.Summary -- References -- Navigation and Tracking of Satellites -- Overview -- Initial Position and Velocity Computation -- Satellite Navigation and Tracking Using Sequential Estimation -- System Model -- Satellite Position and Velocity Estimation Using Azimuth, Elevation, and Range Observation -- Satellite Position and Velocity Estimation Using Multi-GNSS Observation -- Factors Affecting Estimation Performance -- Example MATLAB Implementation of GPS-Based Satellite Navigation -- Precise Orbit Determination -- Real-Time Onboard Navigation and Other Practical Considerations -- References -- Navigation and Tracking During Launch and Reentry -- Overview -- Ground-Based Tracking of Reentry Vehicle -- Launch Vehicle Navigation Using GPS -- Reference Trajectory Generation -- Implementation of Sequential Estimator -- Example MATLAB Implementation of Launch Vehicle and Reentry Vehicle Position Estimation -- Reentry Vehicle Tracking -- GNSS-based Navigation of Launch Vehicle -- Practical Considerations -- References -- Navigation and Tracking in Lunar and Deep Space Missions -- Overview -- Challenges in Lunar and Deep Space Navigation -- Ground-Based Tracking of Spacecraft in Lunar Transfer Trajectory -- State Transition Matrix -- Partial Derivative of Measurements -- Delay in Observation -- Implementation of Navigation Algorithm -- Example MATLAB Implementation for Tracking a Spacecraft in Lunar Transfer Trajectory -- Summary and Future Directions -- References -- Appendix -- Anomalies -- Keplerian Elements to ECI Position and Velocity -- ECI Position and Velocity to Keplerian Elements -- Lambert Problem -- Nomenclature -- About the Authors -- Index."This book focuses on the navigation and tracking of artificial space objects, with emphasis on modelling the dynamics in a wide range of space missions, including earth-orbiting satellite missions, launch and re-entry missions as well as interplanetary missions. The book guides you in designing suitable estimation algorithms for each type of mission. It also helps you in addressing non-linearity in designing navigation algorithms for space missions and walks you through the process for choosing estimators for navigation and tracking of space vehicles. Includes MATLAB/Simulink based software is provided for simulation and simulated data set"--Publisher's website.GNSS technology and applications seriesAnalysis and AlgorithmsNavigation (Astronautics)Artificial satellitesTrackingSpace vehiclesTrackingNavigation (Astronautics)Artificial satellitesTracking.Space vehiclesTracking.Biswas Sanat Kumar.1823058Dempster Andrew G.MiAaPQMiAaPQMiAaPQBOOK9911007180803321Navigation and Tracking in Space4389469UNINA