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| 005 | 20211103223343.0 | ||
| 008 | 100706s2009 gw a b 001 0 eng d | ||
| 010 | _a 2009932687 | ||
| 011 | _aBIB MATCHES WORLDCAT | ||
| 020 |
_a3642012752 _qhardcover (acid-free paper) |
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| 020 |
_a9783642012754 _qhardcover (acid-free paper) |
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| 035 | _a(ATU)b11718894 | ||
| 035 | _a(OCoLC)401159427 | ||
| 040 |
_aBTCTA _beng _erda _cBTCTA _dDLC _dYDXCP _dGBVCP _dOHX _dATU |
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| 042 | _alccopycat | ||
| 050 | 0 | 0 |
_aTL870 _b.E335 2009 |
| 082 | 0 | 4 |
_a629.1 _222 |
| 100 | 1 |
_aEickhoff, Jens, _eauthor. _9269191 |
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| 245 | 1 | 0 |
_aSimulating spacecraft systems / _cJens Eickhoff. |
| 264 | 1 |
_aHeidelberg ; _aNew York : _bSpringer, _c[2009] |
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| 264 | 4 | _c©2009 | |
| 300 |
_axxii, 353 pages : _billustrations (some colour) ; _c25 cm. |
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| 336 |
_atext _btxt _2rdacontent |
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| 337 |
_aunmediated _bn _2rdamedia |
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| 338 |
_avolume _bnc _2rdacarrier |
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| 490 | 1 |
_aSpringer aerospace technology, _x1869-1730 |
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| 504 | _aIncludes bibliographical references and index. | ||
| 505 | 0 | 0 |
_tIntroduction -- _gPart I. _tSimulation Based System Development -- _g1. _tComplex Systems in Spaceflight -- _g2. _tSystem Simulation in System Engineering -- _g2.1. _tDevelopment Process Phases for Spacecraft -- _g2.2. _tA System, its Control Functions and their Modeling -- _g2.3. _tAlgorithms, Software and Hardware Development and Verification -- _g2.4. _tFunctional System Validation -- _g3. _tSimulation Tools for System Analysis and Verification -- _g3.1. _tTools for System Design and Dimensioning -- _g3.1.1. _tTools for System Predesign and Conception -- _g3.1.2. _tFunctional System Analysis Tools for Phase B -- _g3.2. _tSystem Verification Tools -- _g3.2.1. _tFunctional Verification Bench (FVB) -- _g3.2.2. _tSoftware Verification Facility (SVF) -- _g3.2.3. _tHybrid System Testbed (STB) -- _g3.2.4. _tElectrical Functional Model (EFM) -- _g3.2.5. _tSpacecraft Simulator for Operations Support -- _g3.3. _tInfrastructure History -- _g4. _tTestbench Components in Detail -- _g4.1. _tControl Consoles -- _g4.2. _tTest Procedure Editors and Interpreters -- _g4.3. _tSpecial Checkout Equipment -- _g4.4. _tSimulator-Frontend Equipment -- _g4.5. _tSpacecraft Simulators -- _g4.6. _tEquipment and System Models -- _g5. _tSpacecraft Functionality to be Modeled -- _g5.1. _tFunctional Simulation Concept -- _g5.2. _tAttitude, Orbit and Trajectory Modeling -- _g5.3. _tAspects of Structural Mechanics -- _g5.4. _tThermal Aspects -- _g5.5. _tEquipment Modeling -- _gPart II. _tSimulator Technology -- _g6. _tNumerical Foundations of System Simulation -- _g6.1. _tIntroduction to Numerics -- _g6.2. _tModeling of System Components as Transfer Functions -- _g6.3. _tComponents with Time Response -- _g6.4. _tBalance Equations -- _g6.4.1. _tEquation Set for Fluid Systems -- _g6.4.2. _tEquation Set for Spacecraft Dynamics -- _g6.4.3. _tEquation Set for Spacecraft Electrics -- _g6.5. _tClassification of Partial Differential Equations -- _g6.6. _tTransformation of PDEs into Systems of ODEs -- _g6.7. _tNumerical Integration Methods -- _g6.8. _tIntegration Methods Applied on System Level -- _g6.9. _tBoundary Value Problems in System Modeling -- _g6.10. _tRoot Finding Methods for Boundary Value Problems -- _g6.11. _tNumerical Functionalities for Control Engineering -- _g6.11.1. _tMathematical Building Blocks and their Transformation to RPN -- _g6.11.2. _tLinearization of System State Equations -- _g6.11.3. _tLinearization by Algorithmic Differentiation -- _g6.12. _tSemi-Implicit Methods for Stiff DEQ Systems -- _g7. _tAspects of Real-time Simulation -- _g7.1. _tTime Definitions -- _g7.2. _tTime Synchronization -- _g7.3. _tModeling Time in a Simulator -- _g7.4. _tReal-time Parallel Processing -- _g8. _tObject Oriented Architecture of Simulators and System Models -- _g8.1. _tObjectives of Simulator Software Design -- _g8.2. _tThe Model Driven Architecture -- _g8.3. _tImplementation Technologies - Programming Languages -- _g8.4. _tImplementation Technologies - The Unified Modeling Language (UML) -- _g8.4.1. _tCode Generation from UML -- _g8.4.2. _tDesigning a Simulator Kernel using UML -- _g8.4.3. _tDesigning Spacecraft Equipment Models with UML -- _g8.5. _tImplementation Technologies - The Extensible Markup Language (XML) -- _g8.6. _tImplementation Technologies - Modeling Frameworks -- _g8.7. _tFrom a Model Specification to the Simulation Run -- _g8.7.1. _tFrom Equipment Documentation to the Model Specification -- _g8.7.2. _tApplication Example - Fiber-optic Gyroscope -- _g8.7.3. _tWriting an Equipment Model Specification -- _g8.7.4. _tTranslation of the Model Specification into UML Based Design -- _g8.7.5. _tCode Generation and Code Instrumentation -- _g8.7.6. _tIntegrating the Model into the Simulator -- _g8.7.7. _tConfiguration Files for a Simulation Run -- _g8.7.8. _tSimulation Run -- _g9. _tSimulator Development Compliant to Software Standards -- _g9.1. _tSoftware Engineering Standards - Overview -- _g9.2. _tSoftware Classification According to Criticality -- _g9.3. _tSoftware Standard Application Example -- _g9.4. _tCritical Path in Spacecraft Development -- _g9.5. _tTestbench Configuration Control vs. OBSW and TM / TC -- _g9.6. _tTestbench Development Responsibilities -- _g9.7. _tLessons Learned from Projects -- _g10. _tSimulation Tools in a System Engineering Infrastructure -- _g10.1. _tThe System Modeling Language (SysML) -- _g10.2. _tSystem Engineering Infrastructures -- _g10.3. _tStandards for Data Exchange Between Engineering Tools -- _gPart III. _tAdvanced Technologies -- _g11. _tService Oriented Simulator Kernel Architectures -- _g11.1. _tSOA Implementation of Simulator Initialization -- _g11.2. _tSOA Implementation of the Kernel Numerics -- _g11.3. _tOrchestration of the Computation and Function Distribution -- _g12. _tConsistent Modeling Technology for all Development Phases -- _g12.1. _tRequirements to a Cross-Phase Design Infrastructure -- _g12.2. _tCross-Phase Simulation Infrastructure and Engineering Steps -- _g13. _tKnowledge-Based Simulation Applications -- _g13.1. _tModeling of Information for Rule-Based Processing -- _g13.2. _tAccumulation of Knowledge on a System's Behavior -- _g13.3. _tCoupling of Knowledge-Processor and simulated / real System -- _g13.4. _tApplication of Expert Systems for User Training -- _g13.5. _tImplementation Technology: Rules as Fact Filters -- _g14. _tSimulation of Autonomous Systems -- _g14.1. _tTesting Conventional on-board Software Functions -- _g14.2. _tTesting Failure Management Functions -- _g14.3. _tTesting Higher Levels of System Autonomy -- _g14.4. _tImplementations of Autonomy and their Focus -- _g14.4.1. _tImprovement Technology - on-board SW / HW Components -- _g14.4.2. _tImprovement Technology - Optimizing the Mission Product -- _g14.4.3. _tEnabling Technology - Autonomous OBSW for Deep Space Probes -- _g15. _tReferences. |
| 588 | _aMachine converted from AACR2 source record. | ||
| 650 | 0 |
_aAstronautics _xSystems engineering _xSimulation methods. |
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| 650 | 0 |
_aAerospace engineering _xSimulation methods _9628703 |
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| 650 | 0 |
_aSpace vehicles _xElectronic equipment _xSimulation methods. |
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| 830 | 0 |
_aSpringer aerospace technology. _9269254 |
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_a.b11718894 _b22-08-17 _c27-10-15 |
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